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Sample records for acyl-coa synthetase genes

  1. DISTINCT TRANSCRIPTIONAL REGULATION OF LONG-CHAIN ACYL-COA SYNTHETASE ISOFORMS AND CYTOSOLIC THIOESTERASE 1 IN THE RODENT HEART BY FATTY ACIDS AND INSULIN

    Science.gov (United States)

    The molecular mechanism(s) responsible for channeling long-chain fatty acids (LCFAs) into oxidative versus nonoxidative pathways is (are) poorly understood in the heart. Intracellular LCFAs are converted to long-chain fatty acyl-CoAs (LCFA-CoAs) by a family of long-chain acyl-CoA synthetases (ACSLs)...

  2. Disruption of the acyl-coa binding protein gene delays hepatic adaptation to metabolic changes at weaning

    DEFF Research Database (Denmark)

    Neess, Ditte; Bloksgaard, Maria; Sørensen, Signe Bek;

    2011-01-01

    , little is known about the in vivo function in mammalian cells. We have generated mice with targeted disruption of ACBP (ACBP-/-). These mice are viable and fertile and develop normally. However, around weaning the ACBP-/- mice go through a crisis with overall weakness, and a slightly decreased growth...... rate. Using microarray analysis we show that the liver of ACBP-/- mice display a significantly delayed adaptation to weaning with late induction of target genes of the sterol regulatory element binding protein (SREBP) family. As a result, hepatic de novo cholesterogenesis is decreased at weaning....... The delayed induction of SREBP target genes around weaning is caused by a compromised processing and decreased expression of SREBP precursors leading to reduced binding of SREBP to target sites in chromatin. In conclusion, lack of ACBP interferes with the normal metabolic adaptation to weaning and leads...

  3. Increased long chain acyl-Coa synthetase activity and fatty acid import is linked to membrane synthesis for development of picornavirus replication organelles.

    Directory of Open Access Journals (Sweden)

    Jules A Nchoutmboube

    Full Text Available All positive strand (+RNA viruses of eukaryotes replicate their genomes in association with membranes. The mechanisms of membrane remodeling in infected cells represent attractive targets for designing future therapeutics, but our understanding of this process is very limited. Elements of autophagy and/or the secretory pathway were proposed to be hijacked for building of picornavirus replication organelles. However, even closely related viruses differ significantly in their requirements for components of these pathways. We demonstrate here that infection with diverse picornaviruses rapidly activates import of long chain fatty acids. While in non-infected cells the imported fatty acids are channeled to lipid droplets, in infected cells the synthesis of neutral lipids is shut down and the fatty acids are utilized in highly up-regulated phosphatidylcholine synthesis. Thus the replication organelles are likely built from de novo synthesized membrane material, rather than from the remodeled pre-existing membranes. We show that activation of fatty acid import is linked to the up-regulation of cellular long chain acyl-CoA synthetase activity and identify the long chain acyl-CoA syntheatse3 (Acsl3 as a novel host factor required for polio replication. Poliovirus protein 2A is required to trigger the activation of import of fatty acids independent of its protease activity. Shift in fatty acid import preferences by infected cells results in synthesis of phosphatidylcholines different from those in uninfected cells, arguing that the viral replication organelles possess unique properties compared to the pre-existing membranes. Our data show how poliovirus can change the overall cellular membrane homeostasis by targeting one critical process. They explain earlier observations of increased phospholipid synthesis in infected cells and suggest a simple model of the structural development of the membranous scaffold of replication complexes of picorna

  4. Streptomyces hygroscopicus Has Two Glutamine Synthetase Genes

    NARCIS (Netherlands)

    Kumada, Y.; Takano, E.; Nagaoka, Kozo; Thompson, C.J.

    1990-01-01

    Streptomyces hygroscopicus, which produces the glutamine synthetase inhibitor phosphinothricin, possesses at least two genes (glnA and glnB) encoding distinct glutamine synthetase isoforms (GSI and GSII). The glnB gene was cloned from S. hygroscopicus DNA by complementation in an Escherichia coli gl

  5. The glutamine synthetase gene family in Populus

    Directory of Open Access Journals (Sweden)

    Cánovas Francisco M

    2011-08-01

    Full Text Available Abstract Background Glutamine synthetase (GS; EC: 6.3.1.2, L-glutamate: ammonia ligase ADP-forming is a key enzyme in ammonium assimilation and metabolism of higher plants. The current work was undertaken to develop a more comprehensive understanding of molecular and biochemical features of GS gene family in poplar, and to characterize the developmental regulation of GS expression in various tissues and at various times during the poplar perennial growth. Results The GS gene family consists of 8 different genes exhibiting all structural and regulatory elements consistent with their roles as functional genes. Our results indicate that the family members are organized in 4 groups of duplicated genes, 3 of which code for cytosolic GS isoforms (GS1 and 1 which codes for the choroplastic GS isoform (GS2. Our analysis shows that Populus trichocarpa is the first plant species in which it was observed the complete GS family duplicated. Detailed expression analyses have revealed specific spatial and seasonal patterns of GS expression in poplar. These data provide insights into the metabolic function of GS isoforms in poplar and pave the way for future functional studies. Conclusions Our data suggest that GS duplicates could have been retained in order to increase the amount of enzyme in a particular cell type. This possibility could contribute to the homeostasis of nitrogen metabolism in functions associated to changes in glutamine-derived metabolic products. The presence of duplicated GS genes in poplar could also contribute to diversification of the enzymatic properties for a particular GS isoform through the assembly of GS polypeptides into homo oligomeric and/or hetero oligomeric holoenzymes in specific cell types.

  6. SCREENING OF ANTIMICROBIAL ACTIVITY AND GENES CODING POLYKETIDE SYNTHETASE AND NONRIBOSOMAL PEPTIDE SYNTHETASE OF ACTINOMYCETE ISOLATES

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    Silvia Kovácsová

    2013-12-01

    Full Text Available The aim of this study was to observe antimicrobial activity using agar plate diffusion method and screening genes coding polyketide synthetase (PKS-I and nonribosomal peptide synthetase (NRPS from actinomycetes. A total of 105 actinomycete strains were isolated from arable soil. Antimicrobial activity was demonstrated at 54 strains against at least 1 of total 12 indicator organisms. Antifungal properties were recorded more often than antibacterial properties. The presence of PKS-I and NRPS genes were founded at 61 of total 105 strains. The number of strains with mentioned biosynthetic enzyme gene fragments matching the anticipated length were 19 (18% and 50 (47% respectively. Overall, five actinomycete strains carried all the biosynthetical genes, yet no antimicrobial activity was found against any of tested pathogens. On the other hand, twenty-one strains showed antimicrobial activity even though we were not able to amplify any of the PKS or NRPS genes from them. Combination of the two methods showed broad-spectrum antimicrobial activity of actinomycetes isolated from arable soil, which indicate that actinomycetes are valuable reservoirs of novel bioactive compounds.

  7. Glutamine synthetase gene evolution: A good molecular clock

    Energy Technology Data Exchange (ETDEWEB)

    Pesole, G.; Lanvave, C.; Saccone, C. (Consiglio Nazionale delle Richerche, Bari (Italy)); Bozzetti, M.P. (Univ. di Bari (Italy)); Preparata, G. (Univ. di Milano (Italy))

    1991-01-15

    Glutamine synthetase gene evolution in various animals, plants, and bacteria was evaluated by a general stationary Markov model. The evolutionary process proved to be unexpectedly regular even for a time span as long as that between the divergence of prokaryotes from eukaryotes. This enabled us to draw phylogenetic trees for species whose phylogeny cannot be easily reconstructed from the fossil record. The calculation of the times of divergence of the various organelle-specific enzymes led us to hypothesize that the pea and bean chloroplast genes for these enzymes originated from the duplication of nuclear genes as a result of the different metabolic needs of the various species. The data indicate that the duplication of plastid glutamine synthetase genes occurred long after the endosymbiotic events that produced the organelles themselves.

  8. The glutamine synthetase gene family in Populus

    OpenAIRE

    Cánovas Francisco M; Kirby Edward G; Avila Concepción; Canales Javier; García-Gutiérrez Angel; Castro-Rodríguez Vanessa

    2011-01-01

    Abstract Background Glutamine synthetase (GS; EC: 6.3.1.2, L-glutamate: ammonia ligase ADP-forming) is a key enzyme in ammonium assimilation and metabolism of higher plants. The current work was undertaken to develop a more comprehensive understanding of molecular and biochemical features of GS gene family in poplar, and to characterize the developmental regulation of GS expression in various tissues and at various times during the poplar perennial growth. Results The GS gene family consists ...

  9. Recurrent adenylation domain replacement in the microcystin synthetase gene cluster

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    Laakso Kati

    2007-10-01

    Full Text Available Abstract Background Microcystins are small cyclic heptapeptide toxins produced by a range of distantly related cyanobacteria. Microcystins are synthesized on large NRPS-PKS enzyme complexes. Many structural variants of microcystins are produced simulatenously. A recombination event between the first module of mcyB (mcyB1 and mcyC in the microcystin synthetase gene cluster is linked to the simultaneous production of microcystin variants in strains of the genus Microcystis. Results Here we undertook a phylogenetic study to investigate the order and timing of recombination between the mcyB1 and mcyC genes in a diverse selection of microcystin producing cyanobacteria. Our results provide support for complex evolutionary processes taking place at the mcyB1 and mcyC adenylation domains which recognize and activate the amino acids found at X and Z positions. We find evidence for recent recombination between mcyB1 and mcyC in strains of the genera Anabaena, Microcystis, and Hapalosiphon. We also find clear evidence for independent adenylation domain conversion of mcyB1 by unrelated peptide synthetase modules in strains of the genera Nostoc and Microcystis. The recombination events replace only the adenylation domain in each case and the condensation domains of mcyB1 and mcyC are not transferred together with the adenylation domain. Our findings demonstrate that the mcyB1 and mcyC adenylation domains are recombination hotspots in the microcystin synthetase gene cluster. Conclusion Recombination is thought to be one of the main mechanisms driving the diversification of NRPSs. However, there is very little information on how recombination takes place in nature. This study demonstrates that functional peptide synthetases are created in nature through transfer of adenylation domains without the concomitant transfer of condensation domains.

  10. Determination of hydrophobic coenzyme a esters and other lipids using a biosensor comprising a modified coenzyme a- and acyl-coa binding protein (acbp)

    DEFF Research Database (Denmark)

    2002-01-01

    , food and feed preparations, tissue extracts, acyl-CoA synthetase reaction media and various laboratory conditions using a modified Coenzyme A- and acyl-CoA binding protein (ACBP) is provided. Furthermore the invention relates to a construct comprising a peptide and a signal moiety for performing...

  11. Cloning and characterization of the prs gene encoding phosphoribosylpyrophosphate synthetase of Escherichia coli

    DEFF Research Database (Denmark)

    Hove-Jensen, Bjarne

    1985-01-01

    The gene, prs, encoding phosphoribosylpyrophosphate (PRPP) synthetase of Escherichia coli was isolated from a library of E. coli genes cloned in the bacteriophage λD69 vector. A strain with a temperature-lethal defect in PRPP synthetase, (prs-2), was used as the host and cloning was performed...... by lysogenic complementation. The prs gene resided on a 5.6 kilobase-pair (kbp) DNA fragment generated by hydrolysis with restriction endonuclease BamHI. The nearby gene pth, encoding peptidyl-tRNA hydrolase, was also on this fragment. Subcloning of the fragment in the multi-copy plasmid pBR322 and subsequent...... deletion of parts of the insert resulted in a 1.7 kbp DNA fragment containing the entire prs gene. Bacterial strains harbouring prs-bearing plasmids showed up to 50-fold increased PRPP synthetase activity. The PRPP synthetase subunit was identified by analysis of plasmid-harbouring minicells...

  12. Calcium regulates the expression of a Dictyostelium discoideum asparaginyl tRNA synthetase gene

    Indian Academy of Sciences (India)

    Jyoti K Jaiswal; Vidyanand Nanjundiah

    2003-12-01

    In a screen for calcium-regulated gene expression during growth and development of Dictyostelium discoideum we have identified an asparaginyl tRNA synthetase (ddAsnRS) gene, the second tRNA synthetase gene identified in this organism. The ddAsnRS gene shows many unique features. One, it is repressed by lowering cellular calcium, making it the first known calcium-regulated tRNA synthetase. Two, despite the calcium-dependence, its expression is unaltered during the cell cycle, making this the first D. discoideum gene to show a calcium-dependent but cell cycle phase-independent expression. Finally, the N-terminal domain of the predicted ddAsnRS protein shows higher sequence similarity to Glutaminyl tRNA synthetases than to other Asn tRNA synthetases. These unique features of the AsnRS from this primitive eukaryote not only point to a novel mechanism regulating the components of translation machinery and gene expression by calcium, but also hint at a link between the evolution of GlnRS and AsnRS in eukaryotes.

  13. Evidence that the mitochondrial leucyl tRNA synthetase (LARS2) gene represents a novel type 2 diabetes susceptibility gene

    DEFF Research Database (Denmark)

    hart, Leen M; Hansen, Torben; Rietveld, Ingrid;

    2005-01-01

    Previously, we have shown that a mutation in the mitochondrial DNA-encoded tRNA(Leu(UUR)) gene is associated with type 2 diabetes. One of the consequences of this mutation is a reduced aminoacylation of tRNA(Leu(UUR)). In this study, we have examined whether variants in the leucyl tRNA synthetase...... first report of association between an aminoacyl tRNA synthetase gene and disease. Our results further highlight the important role of mitochondria in glucose homeostasis....

  14. Organization and expression of genes in the genomic region surrounding the glutamine synthetase gene Gln1 from Lotus japonicus

    DEFF Research Database (Denmark)

    Thykjaer, T; Danielsen, D; She, Q;

    1997-01-01

    synthetase gene are found primarily in roots and root nodules, while transcripts of the Krm gene are found in roots, root nodules and leaves. In the region between Gln1 and Krm, the presence of a third gene, Pge1, was suggested by analysis with the Grail exon recognition program. Upstream of the Gln1 gene...

  15. Structure of the gene encoding phosphoribosylpyrophosphate synthetase (prsA>) in Salmonella typhimurium

    DEFF Research Database (Denmark)

    Bower, Stanley G.; Hove-Jensen, Bjarne; Switzer, Robert L.

    1988-01-01

    The Salmonella typhimurium gene prsA, which encodes phosphoribosylpyrophosphate synthetase, has been cloned, and the nucleotide sequence has been determined. The amino acid sequence derived from the S. typhimurium gene is 99% identical to the derived Escherichia coli sequence and 47% identical to...

  16. The identification of new cytosolic glutamine synthetase and asparagine synthetase genes in barley (Hordeum vulgare L.), and their expression during leaf senescence.

    Science.gov (United States)

    Avila-Ospina, Liliana; Marmagne, Anne; Talbotec, Joël; Krupinska, Karin; Masclaux-Daubresse, Céline

    2015-04-01

    Glutamine synthetase and asparagine synthetase are two master enzymes involved in ammonium assimilation in plants. Their roles in nitrogen remobilization and nitrogen use efficiency have been proposed. In this report, the genes coding for the cytosolic glutamine synthetases (HvGS1) and asparagine synthetases (HvASN) in barley were identified. In addition to the three HvGS1 and two HvASN sequences previously reported, two prokaryotic-like HvGS1 and three HvASN cDNA sequences were identified. Gene structures were then characterized, obtaining full genomic sequences. The response of the five HvGS1 and five HvASN genes to leaf senescence was then studied. Developmental senescence was studied using primary and flag leaves. Dark-exposure or low-nitrate conditions were also used to trigger stress-induced senescence. Well-known senescence markers such as the chlorophyll and Rubisco contents were monitored in order to characterize senescence levels in the different leaves. The three eukaryotic-like HvGS1_1, HvGS1_2, and HvGS1_3 sequences showed the typical senescence-induced reduction in gene expression described in many plant species. By contrast, the two prokaryotic-like HvGS1_4 and HvGS1_5 sequences were repressed by leaf senescence, similar to the HvGS2 gene, which encodes the chloroplast glutamine synthetase isoenzyme. There was a greater contrast in the responses of the five HvASN and this suggested that these genes are needed for N remobilization in senescing leaves only when plants are well fertilized with nitrate. Responses of the HvASN sequences to dark-induced senescence showed that there are two categories of asparagine synthetases, one induced in the dark and the other repressed by the same conditions.

  17. ISOLATION AND CHARACTERIZATION OF THE RAT GENE FOR CARBAMOYLPHOSPHATE SYNTHETASE-I

    NARCIS (Netherlands)

    VANDENHOFF, MJB; VANDEZANDE, LPWGM; DINGEMANSE, MA; DAS, AT; LABRUYERE, W; MOORMAN, AFM; CHARLES, R; LAMERS, WH; Jacobus Mgn Van De Zande, Louis

    1995-01-01

    Carbamoylphosphate synthetase I (CbmPS) is first expressed in rat hepatocytes shortly before birth. After birth, expression of CbmPS gradually becomes confined to the hepatocytes surrounding the portal veins. To obtain insight into the spatiotemporal regulation of its expression, the rat CbmPS gene

  18. Gene expression in plant lipid metabolism in Arabidopsis seedlings.

    Directory of Open Access Journals (Sweden)

    An-Shan Hsiao

    Full Text Available Events in plant lipid metabolism are important during seedling establishment. As it has not been experimentally verified whether lipid metabolism in 2- and 5-day-old Arabidopsis thaliana seedlings is diurnally-controlled, quantitative real-time PCR analysis was used to investigate the expression of target genes in acyl-lipid transfer, β-oxidation and triacylglycerol (TAG synthesis and hydrolysis in wild-type Arabidopsis WS and Col-0. In both WS and Col-0, ACYL-COA-BINDING PROTEIN3 (ACBP3, DIACYLGLYCEROL ACYLTRANSFERASE1 (DGAT1 and DGAT3 showed diurnal control in 2- and 5-day-old seedlings. Also, COMATOSE (CTS was diurnally regulated in 2-day-old seedlings and LONG-CHAIN ACYL-COA SYNTHETASE6 (LACS6 in 5-day-old seedlings in both WS and Col-0. Subsequently, the effect of CIRCADIAN CLOCK ASSOCIATED1 (CCA1 and LATE ELONGATED HYPOCOTYL (LHY from the core clock system was examined using the cca1lhy mutant and CCA1-overexpressing (CCA1-OX lines versus wild-type WS and Col-0, respectively. Results revealed differential gene expression in lipid metabolism between 2- and 5-day-old mutant and wild-type WS seedlings, as well as between CCA1-OX and wild-type Col-0. Of the ACBPs, ACBP3 displayed the most significant changes between cca1lhy and WS and between CCA1-OX and Col-0, consistent with previous reports that ACBP3 is greatly affected by light/dark cycling. Evidence of oil body retention in 4- and 5-day-old seedlings of the cca1lhy mutant in comparison to WS indicated the effect of cca1lhy on storage lipid reserve mobilization. Lipid profiling revealed differences in primary lipid metabolism, namely in TAG, fatty acid methyl ester and acyl-CoA contents amongst cca1lhy, CCA1-OX, and wild-type seedlings. Taken together, this study demonstrates that lipid metabolism is subject to diurnal regulation in the early stages of seedling development in Arabidopsis.

  19. Structure of the gene encoding phosphoribosylpyrophosphate synthetase (prsA) in Salmonella typhimurium

    DEFF Research Database (Denmark)

    Bower, Stanley G.; Hove-Jensen, Bjarne; Switzer, Robert L.

    1988-01-01

    The Salmonella typhimurium gene prsA, which encodes phosphoribosylpyrophosphate synthetase, has been cloned, and the nucleotide sequence has been determined. The amino acid sequence derived from the S. typhimurium gene is 99% identical to the derived Escherichia coli sequence and 47% identical...... to two rat isozyme sequences. Strains containing plasmid-borne prsA have been used to overproduce and purify the enzyme. The promoter for the S. typhimurium prsA gene was identified by deletion analysis and by similarity to the promoter for the E. coli prsA gene. The location of the prsA promoter results...... in a 416-base-pair 5' untranslated leader in the prsA transcript, which was shown by deletion to be necessary for maximal synthesis of phosphoribosylpyrophosphate synthetase. The S. typhimurium leader contains a 115-base-pair insert relative to the E. coli leader. The insert appears to have no functional...

  20. Phosphoribosylpyrophosphate synthetase of Escherichia coli. Properties of the purified enzyme and primary structure of the prs gene

    DEFF Research Database (Denmark)

    Hove-Jensen, Bjarne; Harlow, Kenneth W.; King, Cheryl J.;

    1986-01-01

    Phosphoribosylpyrophosphate (P-Rib-PP) synthetase of Escherichia coli has been purified to near homogeneity from a strain harboring the prs gene, encoding P-Rib-PP synthetase, on a multicopy plasmid. Analysis of the enzyme showed that it required inorganic phosphate for activity and for stability...... of ADP. The nucleotide sequence of the E. coli prs gene has been determined and the coding segment established. The deduced amino acid sequence of P-Rib-PP synthetase contained 314 amino acid residues and the molecular weight was calculated as 34,060. The initiation site of transcription was determined...

  1. Molecular cloning and characterization of an S-adenosylmethionine synthetase gene from Chorispora bungeana.

    Science.gov (United States)

    Ding, Chenchen; Chen, Tao; Yang, Yu; Liu, Sha; Yan, Kan; Yue, Xiule; Zhang, Hua; Xiang, Yun; An, Lizhe; Chen, Shuyan

    2015-11-10

    S-adenosylmethionine synthetase (SAMS) catalyzes the formation of S-adenosylmethionine (SAM) which is a molecule essential for polyamines and ethylene biosynthesis, methylation modifications of protein, DNA and lipids. SAMS also plays an important role in abiotic stress response. Chorispora bungeana (C. bungeana) is an alpine subnival plant species which possesses strong tolerance to cold stress. Here, we cloned and characterized an S-adenosylmethionine synthetase gene, CbSAMS (C. bungeana S-adenosylmethionine synthetase), from C. bungeana, which encodes a protein of 393 amino acids containing a methionine binding motif GHPDK, an ATP binding motif GAGDQG and a phosphate binding motif GGGAFSGDK. Furthermore, an NES (nuclear export signal) peptide was identified through bioinformatics analysis. To explore the CbSAMS gene expression regulation, we isolated the promoter region of CbSAMS gene 1919bp upstream the ATG start codon, CbSAMSp, and analyzed its cis-acting elements by bioinformatics method. It was revealed that a transcription start site located at 320 bp upstream the ATG start codon and cis-acting elements related to light, ABA, auxin, ethylene, MeJA, low temperature and drought had been found in the CbSAMSp sequence. The gene expression pattern of CbSAMS was then analyzed by TR-qPCR and GUS assay method. The result showed that CbSAMS is expressed in all examined tissues including callus, roots, petioles, leaves, and flowers with a significant higher expression level in roots and flowers. Furthermore, the expression level of CbSAMS was induced by low temperature, ethylene and NaCl. Subcellular localization revealed that CbSAMS was located in the cytoplasm and nucleus but has a significant higher level in the nucleus. These results indicated a potential role of CbSAMS in abiotic stresses and plant growth in C. bungeana. PMID:26205258

  2. Cloning and expression of the Thiobacillus ferrooxidans glutamine synthetase gene in Escherichia coli

    International Nuclear Information System (INIS)

    The glutamine synthetase (GS) gene glnA of Thiobacillus ferrooxidans was cloned on recombinant plasmid pMEB100 which enabled Escherichia coli glnA deletion mutants to utilize (NH4)2SO4 as the sole source of nitrogen. High levels of GS-specific activity were obtained in the E. coli glnA deletion mutants containing the T. ferrooxidans GS gene. The cloned T. ferrooxidans DNA fragment containing the glnA gene activated histidase activity in an E. coli glnA glnL glnG deletion mutant containing the Klebsiella aerogenes hut operon. Plasmid pMEB100 also enabled the E. coli glnA glnL glnG deletion mutant to utilize arginine or low levels of glutamine as the sole source of nitrogen. There was no detectable DNA homology between the T. ferrooxidans glnA gene and the E. coli glnA gene

  3. Effect of post-silking drought on nitrogen partitioning and gene expression patterns of glutamine synthetase and asparagine synthetase in two maize (Zea mays L.) varieties.

    Science.gov (United States)

    Li, Yajun; Wang, Meiling; Zhang, Fengxia; Xu, Yadong; Chen, Xiaohong; Qin, Xiaoliang; Wen, Xiaoxia

    2016-05-01

    Glutamine synthetase (GS) and asparagine synthetase (AS) are proposed to have important function in plant nitrogen (N) remobilization, but their roles under drought stress are not well defined. In this study, the expression dynamics of GS and AS genes were analyzed in two maize varieties (ZD958 and NH101) in relation to post-silking drought stress induced nitrogen partitioning. ZD958 was a 'stay-green' variety with 5% nitrogen harvest index (NHI) lower than NH101. From silking to maturity, the amount of nitrogen remobilized from ear-leaves in ZD958 was evidently lower than NH101, and post-silking drought stress increased the nitrogen remobilization for both varieties. In ear-leaves, the expression of ZmGln1-3 was enhanced under drought stress. Three AS genes (ZmAS1, ZmAS2 and ZmAS3) were differentially regulated by post-silking drought treatment, of which the expression of ZmAS3 was stimulated at late stage of leaf senescence. In NH101, the expression level of ZmAS3 was markedly higher than that in ZD958. In developing grains, there were no significant differences in expression patterns of GS and AS genes between well water and drought treated plants. Drought stress altered maize N partitioning at the whole-plant level, and the up-regulation of GS and AS genes may contribute to the higher leaf nitrogen remobilization when exposed to drought treatments.

  4. Effect of post-silking drought on nitrogen partitioning and gene expression patterns of glutamine synthetase and asparagine synthetase in two maize (Zea mays L.) varieties.

    Science.gov (United States)

    Li, Yajun; Wang, Meiling; Zhang, Fengxia; Xu, Yadong; Chen, Xiaohong; Qin, Xiaoliang; Wen, Xiaoxia

    2016-05-01

    Glutamine synthetase (GS) and asparagine synthetase (AS) are proposed to have important function in plant nitrogen (N) remobilization, but their roles under drought stress are not well defined. In this study, the expression dynamics of GS and AS genes were analyzed in two maize varieties (ZD958 and NH101) in relation to post-silking drought stress induced nitrogen partitioning. ZD958 was a 'stay-green' variety with 5% nitrogen harvest index (NHI) lower than NH101. From silking to maturity, the amount of nitrogen remobilized from ear-leaves in ZD958 was evidently lower than NH101, and post-silking drought stress increased the nitrogen remobilization for both varieties. In ear-leaves, the expression of ZmGln1-3 was enhanced under drought stress. Three AS genes (ZmAS1, ZmAS2 and ZmAS3) were differentially regulated by post-silking drought treatment, of which the expression of ZmAS3 was stimulated at late stage of leaf senescence. In NH101, the expression level of ZmAS3 was markedly higher than that in ZD958. In developing grains, there were no significant differences in expression patterns of GS and AS genes between well water and drought treated plants. Drought stress altered maize N partitioning at the whole-plant level, and the up-regulation of GS and AS genes may contribute to the higher leaf nitrogen remobilization when exposed to drought treatments. PMID:26913793

  5. PRS1 is a key member of the gene family encoding phosphoribosylpyrophosphate synthetase in Saccharomyces cerevisiae

    DEFF Research Database (Denmark)

    Carter, Andrew T.; Beiche, Flora; Hove-Jensen, Bjarne;

    1997-01-01

    In Saccharomyces cerevisiae the metabolite phosphoribosyl-pyrophosphate (PRPP) is required for purine, pyrimidine, tryptophan and histidine biosynthesis. Enzymes that can synthesize PRPP can be encoded by at least four genes. We have studied 5-phospho-ribosyl-1(α)-pyrophosphate synthetases (PRS......) genetically and biochemically. Each of the four genes, all of which are transcribed, has been disrupted in haploid yeast strains of each mating type and although all disruptants are able to grow on complete medium, differences in growth rate and enzyme activity suggest that disruption of PRS1 or PRS3 has...... a significant effect on cell metabolism, whereas disruption of PRS2 or PRS4 has little measurable effect. Using Western blot analysis with antisera raised against peptides derived from the non-homology region (NHR) and the N-terminal half of the PRS1 gene product it has been shown that the NHR is not removed...

  6. Diversity of Nonribosomal Peptide Synthetase Genes in the Microbial Metagenomes of Marine Sponges

    Directory of Open Access Journals (Sweden)

    Ute Hentschel

    2012-05-01

    Full Text Available Genomic mining revealed one major nonribosomal peptide synthetase (NRPS phylogenetic cluster in 12 marine sponge species, one ascidian, an actinobacterial isolate and seawater. Phylogenetic analysis predicts its taxonomic affiliation to the actinomycetes and hydroxy-phenyl-glycine as a likely substrate. Additionally, a phylogenetically distinct NRPS gene cluster was discovered in the microbial metagenome of the sponge Aplysina aerophoba, which shows highest similarities to NRPS genes that were previously assigned, by ways of single cell genomics, to a Chloroflexi sponge symbiont. Genomic mining studies such as the one presented here for NRPS genes, contribute to on-going efforts to characterize the genomic potential of sponge-associated microbiota for secondary metabolite biosynthesis.

  7. Gene expression, cellular localisation and function of glutamine synthetase isozymes in wheat ( Triticum aestivum L.)

    DEFF Research Database (Denmark)

    Bernard, Stéphanie M; Møller, Anders Laurell Blom; Dionisio, Giuseppe;

    2008-01-01

    We present the first cloning and study of glutamine synthetase (GS) genes in wheat (Triticum aestivum L.). Based on sequence analysis, phylogenetic studies and mapping data, ten GS sequences were classified into four sub-families: GS2 (a, b and c), GS1 (a, b and c), GSr (1 and 2) and GSe (1 and 2...

  8. Phosphoribosylpyrophosphate synthetase of Escherichia coli. Properties of the purified enzyme and primary structure of the prs gene

    DEFF Research Database (Denmark)

    Hove-Jensen, Bjarne; Harlow, Kenneth W.; King, Cheryl J.;

    1986-01-01

    Phosphoribosylpyrophosphate (P-Rib-PP) synthetase of Escherichia coli has been purified to near homogeneity from a strain harboring the prs gene, encoding P-Rib-PP synthetase, on a multicopy plasmid. Analysis of the enzyme showed that it required inorganic phosphate for activity and for stability...

  9. The carB Gene Encoding the Large Subunit of Carbamoylphosphate Synthetase from Lactococcus lactis Is Transcribed Monocistronically

    OpenAIRE

    Martinussen, Jan; Hammer, Karin

    1998-01-01

    The biosynthesis of carbamoylphosphate is catalyzed by the heterodimeric enzyme carbamoylphosphate synthetase. The genes encoding the two subunits of this enzyme in procaryotes are normally transcribed as an operon, but the gene encoding the large subunit (carB) in Lactococcus lactis is shown to be transcribed as an isolated unit. Carbamoylphosphate is a precursor in the biosynthesis of both pyrimidine nucleotides and arginine. By mutant analysis, L. lactis is shown to possess only one carB g...

  10. A genome-wide analysis of nonribosomal peptide synthetase gene clusters and their peptides in a Planktothrix rubescens strain

    Directory of Open Access Journals (Sweden)

    Nederbragt Alexander J

    2009-08-01

    Full Text Available Abstract Background Cyanobacteria often produce several different oligopeptides, with unknown biological functions, by nonribosomal peptide synthetases (NRPS. Although some cyanobacterial NRPS gene cluster types are well described, the entire NRPS genomic content within a single cyanobacterial strain has never been investigated. Here we have combined a genome-wide analysis using massive parallel pyrosequencing ("454" and mass spectrometry screening of oligopeptides produced in the strain Planktothrix rubescens NIVA CYA 98 in order to identify all putative gene clusters for oligopeptides. Results Thirteen types of oligopeptides were uncovered by mass spectrometry (MS analyses. Microcystin, cyanopeptolin and aeruginosin synthetases, highly similar to already characterized NRPS, were present in the genome. Two novel NRPS gene clusters were associated with production of anabaenopeptins and microginins, respectively. Sequence-depth of the genome and real-time PCR data revealed three copies of the microginin gene cluster. Since NRPS gene cluster candidates for microviridin and oscillatorin synthesis could not be found, putative (gene encoded precursor peptide sequences to microviridin and oscillatorin were found in the genes mdnA and oscA, respectively. The genes flanking the microviridin and oscillatorin precursor genes encode putative modifying enzymes of the precursor oligopeptides. We therefore propose ribosomal pathways involving modifications and cyclisation for microviridin and oscillatorin. The microviridin, anabaenopeptin and cyanopeptolin gene clusters are situated in close proximity to each other, constituting an oligopeptide island. Conclusion Altogether seven nonribosomal peptide synthetase (NRPS gene clusters and two gene clusters putatively encoding ribosomal oligopeptide biosynthetic pathways were revealed. Our results demonstrate that whole genome shotgun sequencing combined with MS-directed determination of oligopeptides successfully

  11. Horizontal Gene Transfer of the Non-ribosomal Peptide Synthetase Gene Among Endophytic and Epiphytic Bacteria Associated with Ethnomedicinal Plants.

    Science.gov (United States)

    Nongkhlaw, Fenella Mary War; Joshi, S R

    2016-01-01

    This study genetically screened endophytic and epiphytic bacteria associated with ethnomedicinal plants for the presence of the non-ribosomal peptide synthetase (NRPS) gene and identified horizontal gene transfer (HGT) of the NRPS gene between the bacterial species. NRPSs are large multimodular enzymes that synthesize a wide range of biologically active natural compounds that are pharmacologically important. Twenty-nine plant-associated culturable bacteria were screened for the presence of the NRPS gene, of which seven bacterial NRPS gene fragments were successfully detected. According to our findings the presence of NRPS gene among the isolates does not always equate to their antagonistic ability. Phylogenetic analysis of the NRPS and 16S rRNA-encoding genes was used to predict HGT that may have occurred during gene evolution. The occurrence of HGT was demonstrated in the isolates (one inter-phylum and four intra-phyla) and was supported by phylogenetic analysis, mol% G+C content, and tetranucleotide usage pattern and codon usage frequency. Among the four intra-phyla HGT, one isolate showed inter-class HGT and three other isolates showed intra-class HGT.

  12. An Arabidopsis embryonic lethal mutant with reduced expression of alanyl—t RNA synthetase gene

    Institute of Scientific and Technical Information of China (English)

    SUNJIANGE; XIAOLIYAO; 等

    1998-01-01

    In present paper,one of the T-DNA insertional embryonic lethal mutant of Arabidopsis is identified and designated as acd mutant.The embryo developmant of this mutant is arrested in globular stage,The cell division pattern is abnormal during early embryogenesis and results in distubed cellular differentiation.Most of mutant embryos are finally degenerated and aborted in globular stage,However,a few of them still can germinate in agar palte and produce seedlings with shoter hypoctyl and distorted shoot meristem.To understand the molecular basis of the phenotype of this mutant,the joint fragment of T-DNA/plant DNA is isolated by plasmid rescue and Dig-labeled as probe for cDNA library screening.According to the sequence analysis and similarity searching,a 936 bp cDNA sequence(EMBL accession #:Y12555)from selectoed positive clone shows a 99.8%(923/925bp) sequence homolgy with Alanyl-tRNA Synthetase(AlaRS) gene of Arabidopsis thaliana.Furthermore,the data of in situ hybridization experiment indicate that the expression of Ala RS gene is weak in early embryogenesis and declines along with globular embryodevelopment in this mutant Accordingly,the reduced expression of Ala RS gene may be closely related to the morphological changes in early embryogenesis of this lethal mutant.

  13. Improving heterologous polyketide production in Escherichia coli by overexpression of an S-adenosylmethionine synthetase gene.

    Science.gov (United States)

    Wang, Yong; Boghigian, Brett A; Pfeifer, Blaine A

    2007-11-01

    An S-adenosylmethionine synthetase gene (metK) from Streptomyces spectabilis was cloned into an expression plasmid under the control of an inducible T7 promoter and introduced into a strain of Escherichia coli (BAP1(pBP130/pBP144)) capable of producing the polyketide product 6-deoxyerythronolide B (6-dEB). The metK coexpression in BAP1(pBP130/pBP144) improved the specific production of 6-dEB from 10.86 to 20.08 mg l(-1) OD(600)(-1). In an effort to probe the reason for this improvement, a series of gene deletion and expression experiments were conducted based on a metK metabolic pathway that branches between propionyl-CoA (a 6-dEB precursor) and autoinducer compounds. The deletion and expression studies suggested that the autoinducer pathway had a larger impact on improved 6-dEB biosynthesis. Supporting these results were experiments demonstrating the positive effect conditioned media (the suspected location of the autoinducer compounds) had on 6-dEB production. Taken together, the results of this study show an increase in heterologous 6-dEB production concomitant with heterologous metK gene expression and suggest that the mechanism for this improvement is linked to native autoinducer compounds. PMID:17876579

  14. Phosphoribosylpyrophosphate synthetase of Bacillus subtilis. Cloning, characterization and chromosomal mapping of the prs gene

    DEFF Research Database (Denmark)

    Nilsson, Dan; Hove-Jensen, Bjarne

    1987-01-01

    The gene (prs) encoding phosphoribosylpyrophosphate (PRPP) synthetase has been cloned from a library of Bacillus subtilis DNA by complementation of an Escherichia coli prs mutation. Flanking DNA sequences were pruned away by restriction endonuclease and exonuclease BAL 31 digestions, resulting...

  15. Three promoters regulate the transcriptional activity of the human holocarboxylase synthetase gene.

    Science.gov (United States)

    Xia, Mengna; Malkaram, Sridhar A; Zempleni, Janos

    2013-11-01

    Holocarboxylase synthetase (HLCS) is the only protein biotin ligase in the human proteome. HLCS-dependent biotinylation of carboxylases plays crucial roles in macronutrient metabolism. HLCS appears to be an essential part of multiprotein complexes in the chromatin that cause gene repression and contribute toward genome stability. Consistent with these essential functions, HLCS knockdown causes strong phenotypes including shortened life span and low stress resistance in Drosophila melanogaster, and de-repression of long-terminal repeats in humans, other mammalian cell lines and Drosophila. Despite previous observations that the expression of HLCS depends on biotin status in rats and in human cell lines, little is known about the regulation of HLCS expression. The goal of this study was to identify promoters that regulate the expression of the human HLCS gene. Initially, the human HLCS locus was interrogated in silico using predictors of promoters including sequences of HLCS mRNA and expressed sequence tags, CpG islands, histone marks denoting transcriptionally poised chromatin, transcription factor binding sites and DNaseI hypersensitive regions. Our predictions revealed three putative HLCS promoters, denoted P1, P2 and P3. Promoters lacked a TATA box, which is typical for housekeeping genes. When the three promoters were cloned into a luciferase reporter plasmid, reporter gene activity was at least three times background noise in human breast, colon and kidney cell lines; activities consistently followed the pattern P1>P3>P2. Promoter activity depended on the concentration of biotin in culture media, but the effect was moderate. We conclude that we have identified promoters in the human HLCS gene.

  16. The effect of gamma irradiation on astaxanthin synthetase encoding gene in two mutant strains of Phaffia rhodozyma.

    Directory of Open Access Journals (Sweden)

    Naeimeh Najafi

    2013-09-01

    Full Text Available Astaxanthin, an orange-red carotenoid pigment, acts as a protective agent against oxidative damage to cells in vivo. The astaxanthin synthetase gene (crtS size consists of 3995 bp. This gene has been suggested to catalyse β-carotene to astaxanthin in Phaffia rhodozyma. The aim of this research was to find any possible changes in this gene in two mutant strains, Gam1 and Gam2 (with high astaxanthin pigment production, previously created by gamma irradiation.The astaxanthin synthetase gene sequence of Phaffia rhodozyma in the NCBI Gene bank was used to design primer. In Gam1, this gene was amplified using primers Asta F1, Asta R2, Asta F3, Asta R4. In Gam2, primers asta F1, asta R4 were used to amplify the gene. The amplified fragments were 8 sequenced using primers Asta F1, Asta R1, Asta F2, Asta R2, Asta F3, Asta R3 and Asta F4, Asta R4. Astaxanthin synthetase gene from two mutant strains, Gam1 and Gam2 were amplified using PCR. The amplified products were sequenced and aligned using the ClustalW software.The comparison of this gene showed 98% and 99% similarities between the reference sequence and Gam1 and Gam2 mutant strains, respectively, whereas the comparison of this gene in Gam1 and Gam2 mutant strains showed 97% similarity. However, the deduced proteins showed 78% and 83% between the reference protein obtained from the wild type and Gam1 and Gam2, respectively. This similarity was 75% between the mutant strains.

  17. Formyltetrahydrofolate Synthetase Gene Diversity in the Guts of Higher Termites with Different Diets and Lifestyles ▿ †

    OpenAIRE

    Ottesen, Elizabeth A.; Leadbetter, Jared R.

    2011-01-01

    In this study, we examine gene diversity for formyl-tetrahydrofolate synthetase (FTHFS), a key enzyme in homoacetogenesis, recovered from the gut microbiota of six species of higher termites. The “higher” termites (family Termitidae), which represent the majority of extant termite species and genera, engage in a broader diversity of feeding and nesting styles than the “lower” termites. Previous studies of termite gut homoacetogenesis have focused on wood-feeding lower termites, from which the...

  18. Effect of bromochloromethane and fumarate on phylogenetic diversity of the formyltetrahydrofolate synthetase gene in bovine rumen.

    Science.gov (United States)

    Mitsumori, Makoto; Matsui, Hiroki; Tajima, Kiyoshi; Shinkai, Takumi; Takenaka, Akio; Denman, Stuart E; McSweeney, Christopher S

    2014-01-01

    Effect of the methane inhibitor, bromochloromethane (BCM) and dietary substrate, fumarate, on microbial community structure of acetogen bacteria in the bovine rumen was investigated through analysis of the formyltetrahydrofolate synthetase gene (fhs). The fhs sequences obtained from BCM-untreated, BCM-treated, fumarate-untreated and fumarate-treated bovine rumen were categorized into homoacetogens and nonhomoacetogenic bacteria by homoacetogen similarity scores. Phylogenetic tree analysis indicated that most of the fhs sequences categorized into homoacetogens were divided into nine clusters, which were in close agreement with a result shown in a self-organizing map. The diversity of the fhs sequences from the BCM-treated rumen was significantly different from those from BCM-non-treated rumen. Principal component analysis also showed that addition of BCM to the rumen altered the population structure of acetogenic bacteria significantly but the effect of fumarate was comparatively minor. These results indicate that BCM affects diversity of actogens in the bovine rumen, and changes in acetogenic community structure in response to methane inhibitors may be caused by different mechanisms.

  19. Formyltetrahydrofolate synthetase gene diversity in the guts of higher termites with different diets and lifestyles.

    Science.gov (United States)

    Ottesen, Elizabeth A; Leadbetter, Jared R

    2011-05-01

    In this study, we examine gene diversity for formyl-tetrahydrofolate synthetase (FTHFS), a key enzyme in homoacetogenesis, recovered from the gut microbiota of six species of higher termites. The "higher" termites (family Termitidae), which represent the majority of extant termite species and genera, engage in a broader diversity of feeding and nesting styles than the "lower" termites. Previous studies of termite gut homoacetogenesis have focused on wood-feeding lower termites, from which the preponderance of FTHFS sequences recovered were related to those from acetogenic treponemes. While sequences belonging to this group were present in the guts of all six higher termites examined, treponeme-like FTHFS sequences represented the majority of recovered sequences in only two species (a wood-feeding Nasutitermes sp. and a palm-feeding Microcerotermes sp.). The remaining four termite species analyzed (a Gnathamitermes sp. and two Amitermes spp. that were recovered from subterranean nests with indeterminate feeding strategies and a litter-feeding Rhynchotermes sp.) yielded novel FTHFS clades not observed in lower termites. These termites yielded two distinct clusters of probable purinolytic Firmicutes and a large group of potential homoacetogens related to sequences previously recovered from the guts of omnivorous cockroaches. These findings suggest that the gut environments of different higher termite species may select for different groups of homoacetogens, with some species hosting treponeme-dominated homoacetogen populations similar to those of wood-feeding, lower termites while others host Firmicutes-dominated communities more similar to those of omnivorous cockroaches.

  20. An update to polyketide synthase and non-ribosomal synthetase genes and nomenclature in Fusarium.

    Science.gov (United States)

    Hansen, Frederik T; Gardiner, Donald M; Lysøe, Erik; Fuertes, Patricia Romans; Tudzynski, Bettina; Wiemann, Philipp; Sondergaard, Teis Esben; Giese, Henriette; Brodersen, Ditlev E; Sørensen, Jens Laurids

    2015-02-01

    Members of the genus Fusarium produce a plethora of bioactive secondary metabolites, which can be harmful to humans and animals or have potential in drug development. In this study we have performed comparative analyses of polyketide synthases (PKSs) and non-ribosomal peptide synthetases (NRPSs) from ten different Fusarium species including F. graminearum (two strains), F. verticillioides, F. solani, F. culmorum, F. pseudograminearum, F. fujikuroi, F. acuminatum, F. avenaceum, F. equiseti, and F. oxysporum (12 strains). This led to identification of 52 NRPS and 52 PKSs orthology groups, respectively, and although not all PKSs and NRPSs are assumed to be intact or functional, the analyses illustrate the huge secondary metabolite potential in Fusarium. In our analyses we identified a core collection of eight NRPSs (NRPS2-4, 6, 10-13) and two PKSs (PKS3 and PKS7) that are conserved in all strains analyzed in this study. The identified PKSs and NRPSs were named based on a previously developed classification system (www.FusariumNRPSPKS.dk). We suggest this system be used when PKSs and NRPSs have to be classified in future sequenced Fusarium strains. This system will facilitate identification of orthologous and non-orthologous NRPSs and PKSs from newly sequenced Fusarium genomes and will aid the scientific community by providing a common nomenclature for these two groups of genes/enzymes.

  1. SREBP-1c Gene Silencing can Decrease Lipid Deposits in Bovine Hepatocytes Cultured in Vitro

    Directory of Open Access Journals (Sweden)

    Qinghua Deng

    2014-05-01

    Full Text Available Background: Fatty liver is a major metabolic disorder that occurs during early lactation in high-producing dairy cows. Sterol regulatory element-binding protein-1c (SREBP-1c is an important transcription factor that regulates lipid synthesis by regulating the expression of lipid metabolism genes. Methods: In this study, we reduced the expression of SREBP-1c by adenovirus-mediated SREBP-1c with a low expression vector (AD-GFP-SREBP-1c to study the effects of SREBP-1c on lipid deposits in bovine hepatocytes. The expression levels and enzyme activities of SERBP-1c and its target genes were determined by real-time PCR, western blot, and ELISA. Results: These results showed that Ad-GFP-SREBP-1c could inhibit SREBP-1c expression. The expression of the lipid synthesis enzyme acetyl-CoA carboxylase (ACC was down-regulated. The expression levels of the lipid oxidation enzymes long-chain fatty acyl-COA synthetase (ACSL-1, carnitine palmitoyltransferase І (CPT-І, carnitine palmitoyltransferase II (CPT- II, and β-hydroxyacyl-CoA-DH (HADH were significantly elevated. Furthermore, the expression levels of factors involved in the assembly and transport of very low-density lipoproteins (VLDLs, such as apolipoprotein B100 (ApoB, apolipoprotein E (ApoE, and microsomal triglyceride transfer protein (MTTP were decreased comparison with the negative control and the blank control groups, but the low-density lipoprotein receptor (LDLR was elevated. The concentrations of TG (triglyceride and VLDL were also reduced. Conclusion: These data suggest that low SREBP-1c expression can decrease lipid synthesis, increase lipid oxidation, and decrease the TG and VLDL content in bovine hepatocytes.

  2. Splicing Defect in Mitochondrial Seryl-tRNA Synthetase Gene Causes Progressive Spastic Paresis Instead of HUPRA Syndrome.

    Science.gov (United States)

    Linnankivi, Tarja; Neupane, Nirajan; Richter, Uwe; Isohanni, Pirjo; Tyynismaa, Henna

    2016-09-01

    Mitochondrial aminoacyl-tRNA synthetases are an important group of disease genes typically underlying either a disorder affecting an isolated tissue or a distinct syndrome. Missense mutations in the mitochondrial seryl-tRNA synthetase gene, SARS2, have been identified in HUPRA syndrome (hyperuricemia, pulmonary hypertension, renal failure in infancy, and alkalosis). We report here a homozygous splicing mutation in SARS2 in a patient with progressive spastic paresis. We show that the mutation leads to diminished levels of the synthetase in patient's fibroblasts. This has a destabilizing effect on the tRNASer(AGY) isoacceptor, but to a lesser degree than in HUPRA syndrome patients. tRNASer(UCN) is largely unaffected in both phenotypes. In conclusion, the level of tRNASer(AGY) instability may be a factor in determining tissue manifestation in patients with SARS2 mutations. This finding exemplifies the sensitivity of the nervous system to partially reduced aminoacylation, which is sufficient in other tissues to maintain respiratory chain function. PMID:27279129

  3. Three alcohol dehydrogenase genes and one acetyl-CoA synthetase gene are responsible for ethanol utilization in Yarrowia lipolytica.

    Science.gov (United States)

    Gatter, Michael; Ottlik, Stephanie; Kövesi, Zsolt; Bauer, Benjamin; Matthäus, Falk; Barth, Gerold

    2016-10-01

    The non-conventional yeast Yarrowia lipolytica is able to utilize a wide range of different substrates like glucose, glycerol, ethanol, acetate, proteins and various hydrophobic molecules. Although most metabolic pathways for the utilization of these substrates have been clarified by now, it was not clear whether ethanol is oxidized by alcohol dehydrogenases or by an alternative oxidation system inside the cell. In order to detect the genes that are required for ethanol utilization in Y. lipolytica, eight alcohol dehydrogenase (ADH) genes and one alcohol oxidase gene (FAO1) have been identified and respective deletion strains were tested for their ability to metabolize ethanol. As a result of this, we found that the availability of ADH1, ADH2 or ADH3 is required for ethanol utilization in Y. lipolytica. A strain with deletions in all three genes is lacking the ability to utilize ethanol as sole carbon source. Although Adh2p showed by far the highest enzyme activity in an in vitro assay, the availability of any of the three genes was sufficient to enable a decent growth. In addition to ADH1, ADH2 and ADH3, an acetyl-CoA synthetase encoding gene (ACS1) was found to be essential for ethanol utilization. As Y. lipolytica is a non-fermenting yeast, it is neither able to grow under anaerobic conditions nor to produce ethanol. To investigate whether Y. lipolytica may produce ethanol, the key genes of alcoholic fermentation in S. cerevisiae, ScADH1 and ScPDC1, were overexpressed in an ADH and an ACS1 deletion strain. However, instead of producing ethanol, the respective strains regained the ability to use ethanol as single carbon source and were still not able to grow under anaerobic conditions.

  4. The Populus Superoxide Dismutase Gene Family and Its Responses to Drought Stress in Transgenic Poplar Overexpressing a Pine Cytosolic Glutamine Synthetase (GS1a)

    OpenAIRE

    Molina-Rueda, Juan Jesús; Tsai, Chung Jui; Kirby, Edward G.

    2013-01-01

    Background Glutamine synthetase (GS) plays a central role in plant nitrogen assimilation, a process intimately linked to soil water availability. We previously showed that hybrid poplar (Populus tremula X alba, INRA 717-1B4) expressing ectopically a pine cytosolic glutamine synthetase gene (GS1a) display enhanced tolerance to drought. Preliminary transcriptome profiling revealed that during drought, members of the superoxide dismutase (SOD) family were reciprocally regulated in GS poplar when...

  5. Cloning, characterization and disruption of a (p)ppGpp synthetase gene (relA) of Streptomyces coelicolor A3(2)

    NARCIS (Netherlands)

    Chakraburtty, Rekha; White, Janet; Takano, Eriko; Bibb, Mervyn

    1996-01-01

    An internal segment of the (p)ppGpp synthetase gene, relA, of Streptomyces coelicolor A3(2) was amplified from genomic DNA using the polymerase chain reaction and used as a hybridization probe to isolate the complete gene from a cosmid library. relA lies downstream of a gene (apt) that apparently en

  6. Phosphoribosylpyrophosphate synthetase of Bacillus subtilis. Cloning, characterization and chromosomal mapping of the prs gene

    DEFF Research Database (Denmark)

    Nilsson, Dan; Hove-Jensen, Bjarne

    1987-01-01

    The gene (prs) encoding phosphoribosylpyrophosphate (PRPP) synthetase has been cloned from a library of Bacillus subtilis DNA by complementation of an Escherichia coli prs mutation. Flanking DNA sequences were pruned away by restriction endonuclease and exonuclease BAL 31 digestions, resulting...... in a DNA fragment of approx. 1.8 kb complementing the E. coli prs mutation. Minicell experiments revealed that this DNA fragment coded for a polypeptide, shown to be the PRPP synthetase subunit, with an Mr of approx. 40,000. B. subtilis strains harbouring the prs gene in a multicopy plasmid contained up...... to nine-fold increased PRPP synthetase activity. The prs gene was cloned in an integration vector and the resulting hybrid plasmid inserted into the B. subtilis chromosome by homologous recombination. The integration site was mapped by transduction and the gene order established as purA-guaA-prs-cysA....

  7. Highly variable clinical phenotype of carbamylphosphate synthetase 1 deficiency in one family: an effect of allelic variation in gene expression?

    DEFF Research Database (Denmark)

    Klaus, V; Vermeulen, T; Minassian, B;

    2009-01-01

    Deficiency of the urea cycle enzyme carbamylphosphate synthetase 1 (CPS1) causes hyperammonemia with a vast range of clinical severity from neonatal onset with early lethality to onset after age 40 with rare episodes of hyperammonemic confusion. The cause for this variability is not understood. We...... report two patients from one family with highly divergent clinical course, one presenting neonatally with a fatal form and the other at age 45 with benign diet-responsive disease. The patients are compound heterozygous for two mutations of the CPS1 gene, c.3558 + 1G > C and c.4101 + 2T > C...

  8. New Insight into the Ochratoxin A Biosynthetic Pathway through Deletion of a Nonribosomal Peptide Synthetase Gene in Aspergillus carbonarius

    Energy Technology Data Exchange (ETDEWEB)

    Gallo, A.; Bruno, K. S.; Solfrizzo, M.; Perrone, G.; Mule, G.; Visconti, A.; Baker, S. E.

    2012-09-14

    Ochratoxin A (OTA), a mycotoxin produced by Aspergillus and Penicillium species, is composed of a dihydroisocoumarin ring linked to phenylalanine and its biosynthetic pathway has not yet been completely elucidated. Most of the knowledge regarding the genetic and enzymatic aspects of OTA biosynthesis has been obtained in Penicillium species. In Aspergillus species only pks genes involved in the initial steps of the pathway have been partially characterized. In our study, the inactivation of a gene encoding a nonribosomal peptide synthetase in OTA producing A. carbonarius ITEM 5010 has removed the ability of the fungus to produce OTA. This is the first report on the involvement of an nrps gene product in OTA biosynthetic pathway in Aspergillus species. The absence of OTA and ochratoxin α-the isocoumaric derivative of OTA, and the concomitant increase of ochratoxin β- the dechloro analog of ochratoxin α- were observed in the liquid culture of transformed strain. The data provide the first evidence that the enzymatic step adding phenylalanine to polyketide dihydroisocoumarin precedes the chlorination step to form OTA in A. carbonarius, and that ochratoxin α is a product of hydrolysis of OTA, giving an interesting new insight in the biosynthetic pathway of the toxin.

  9. Silencing of vacuolar invertase and asparagine synthetase genes and its impact on acrylamide formation of fried potato products.

    Science.gov (United States)

    Zhu, Xiaobiao; Gong, Huiling; He, Qunyan; Zeng, Zixian; Busse, James S; Jin, Weiwei; Bethke, Paul C; Jiang, Jiming

    2016-02-01

    Acrylamide is produced in a wide variety of carbohydrate-rich foods during high-temperature cooking. Dietary acrylamide is a suspected human carcinogen, and health concerns related to dietary acrylamide have been raised worldwide. French fries and potato chips contribute a significant proportion to the average daily intake of acrylamide, especially in developed countries. One way to mitigate health concerns related to acrylamide is to develop potato cultivars that have reduced contents of the acrylamide precursors asparagine, glucose and fructose in tubers. We generated a large number of silencing lines of potato cultivar Russet Burbank by targeting the vacuolar invertase gene VInv and the asparagine synthetase genes StAS1 and StAS2 with a single RNA interference construct. The transcription levels of these three genes were correlated with reducing sugar (glucose and fructose) and asparagine content in tubers. Fried potato products from the best VInv/StAS1/StAS2-triple silencing lines contained only one-fifteenth of the acrylamide content of the controls. Interestingly, the extent of acrylamide reduction of the best triple silencing lines was similar to that of the best VInv-single silencing lines developed previously from the same potato cultivar Russet Burbank. These results show that an acrylamide mitigation strategy focused on developing potato cultivars with low reducing sugars is likely to be an effective and sufficient approach for minimizing the acrylamide-forming potential of French fry processing potatoes. PMID:26079224

  10. Cloning and characterization of a putative human holocytochrome c-type synthetase gene (HCCS) isolated from the critical region for microphthalmia with linear skin defects (MLS)

    Energy Technology Data Exchange (ETDEWEB)

    Schaefer, L.; Ballabio, A.; Zoghbi, H.Y. [Baylor College of Medicine, Houston, TX (United States)

    1996-06-01

    Microphthalmia with linear skin defects syndrome (MLS) is an X-linked male-lethal disorder associated with X chromosomal rearrangements resulting in monosomy from Xpter to Xp22. Features include microphthalmia, sclerocornea, linear skin defects, and agenesis of the corpus callosum. Using a cross-species conservation strategy, an expressed sequence from the 450- to the 550-kb MLS critical region on Xp22 was identified by screening a human embryo cDNA library. Northern analysis revealed a transcript of {approx}2.6 kb in all tissues examined, with weaker expression of {approx}1.2- and {approx}5.2-kb transcripts. The strongest expression was observed in heart and skeletal muscle. Sequence analysis of a 3-kb cDNA contig revealed an 807-bp open reading frame encoding a putative 268-amino-acid-protein. Comparison of the sequence with sequences in the databases revealed homology with holocytochrome c-type synthetases, which catalyze the covalent addition of a heme group onto c-type cytochromes in the mitochondria. The c-type cytochromes are required for proper functioning of the electron transport pathway. The human gene (HGMW-approved symbol HCCS) and the corresponding murine gene characterized in this paper are the first mammalian holocytochrome c-type synthetases to be described in the literature. Because of the lack of a neuromuscular phenotype in MLS, it is uncertain whether the deletion of a mitochondrial holocytochrome synthetase would contribute to the phenotype seen in MLS. The expression pattern of this gene and knowledge about the function of holocytochrome synthetases, however, suggest that it is a good candidate for X-linked encephalomyopathies typically associated with mitochondrial dysfunction. 25 refs., 4 figs.

  11. Formyltetrahydrofolate Synthetase Gene Diversity in the Guts of Higher Termites with Different Diets and Lifestyles ▿ †

    Science.gov (United States)

    Ottesen, Elizabeth A.; Leadbetter, Jared R.

    2011-01-01

    In this study, we examine gene diversity for formyl-tetrahydrofolate synthetase (FTHFS), a key enzyme in homoacetogenesis, recovered from the gut microbiota of six species of higher termites. The “higher” termites (family Termitidae), which represent the majority of extant termite species and genera, engage in a broader diversity of feeding and nesting styles than the “lower” termites. Previous studies of termite gut homoacetogenesis have focused on wood-feeding lower termites, from which the preponderance of FTHFS sequences recovered were related to those from acetogenic treponemes. While sequences belonging to this group were present in the guts of all six higher termites examined, treponeme-like FTHFS sequences represented the majority of recovered sequences in only two species (a wood-feeding Nasutitermes sp. and a palm-feeding Microcerotermes sp.). The remaining four termite species analyzed (a Gnathamitermes sp. and two Amitermes spp. that were recovered from subterranean nests with indeterminate feeding strategies and a litter-feeding Rhynchotermes sp.) yielded novel FTHFS clades not observed in lower termites. These termites yielded two distinct clusters of probable purinolytic Firmicutes and a large group of potential homoacetogens related to sequences previously recovered from the guts of omnivorous cockroaches. These findings suggest that the gut environments of different higher termite species may select for different groups of homoacetogens, with some species hosting treponeme-dominated homoacetogen populations similar to those of wood-feeding, lower termites while others host Firmicutes-dominated communities more similar to those of omnivorous cockroaches. PMID:21441328

  12. Nonribosomal Peptide Synthetase Genes pesL and pes1 Are Essential for Fumigaclavine C Production in Aspergillus fumigatus

    OpenAIRE

    O'Hanlon, Karen A.; Gallagher, Lorna; Schrettl, Markus; Jöchl, Christoph; Kavanagh, Kevin; Larsen, Thomas O.; Doyle, Sean

    2012-01-01

    The identity of metabolites encoded by the majority of nonribosomal peptide synthetases in the opportunistic pathogen, Aspergillus fumigatus, remains outstanding. We found that the nonribosomal peptide (NRP) synthetases PesL and Pes1 were essential for fumigaclavine C biosynthesis, the end product of the complex ergot alkaloid (EA) pathway in A. fumigatus. Deletion of either pesL (ΔpesL) or pes1 (Δpes1) resulted in complete loss of fumigaclavine C biosynthesis, relatively increased production...

  13. Gene Regulation by Metabolic Enzyme GMP Synthetase and Chromatin Remodeler NuRD

    NARCIS (Netherlands)

    B.A. Reddy (Ashok)

    2012-01-01

    textabstractSpatial and temporal control of the gene expression is crucial for normal growth and development of an organism. Environmental stress factors pose a constant threat to normal development of an organism by causing altered gene expression. Cells have evolved counteractive mechanisms to ove

  14. Construction of plant expression vectors carrying glnA gene encoding glutamine synthetase and regeneration of transgenic rice plants

    Institute of Scientific and Technical Information of China (English)

    苏金; 张雪琴; 颜秋生; 陈章良; 尤崇杓

    1995-01-01

    The glnA gene encoding glutamine synthetase (GS) was amplified from Azospirillum brasilenseSp7 with PCR technique.The amplified 1.4-kb DNA fragment flanked with a BamH Ⅰ site at each end wascloned into EcoR V site of Bluescript-SK vector.A recombinant plasmid pGSJ1 containing this 1.4-kb DNA frag-ment was selected by restriction digestion analysis.The sequencing data also confirmed that the amplified 1.4-kbDNA fragment was undoubtedly the glnA gene of A.brasilense Sp7.Then the 1.4-kb BamH Ⅰ fragment was ex-cised from pGSJ1.A glnA plant expression vector pAGNB92 with rice actin 1 (Act1) promoter was constructedby using colony in situ hybridization to screen positive clones,and 3 rounds of ligation and transformation wereperformed.Protoplasts isolated from rice (Oryza sativa,L.Japonica) cell suspension line (cv.T986) weretransformed with the glnA plant expression vector pAGNB92 carrying neomycin phosphotransferase Ⅱ (NPT Ⅱ)gene by PEG fusion or electroporation.G418~ calli were used to detect NPT Ⅱ enzyme activity.The resultsshow that G418~ calli possess high positive hybridization signal with the frequency of 37%.The regeneratedG418~NPTII~+ rice plants were used for PCR amplification of glnA gene,and a 1.4-kb DNA fragment was ampli-fied from glnA-transgenic rice plants (R0 generation).The results of Southern blot hybridization prove that the1.4-kb DNA fragment amplified from the total DNA of glnA transgenic rice plants is indeed the glnA gene of A.brasilense Sp7.Northern blot hybridization was carried out using the same glnA gene as probe.The glnAgene was expressed in the transgenic rice plants.Bioassays also confirmed that the glnA transgenic rice plantsgrew much better than that of the control plants under a condition with nitrogen poor source (0.75 mmol/L).

  15. Molecular genetic analysis reveals that a nonribosomal peptide synthetase-like (NRPS-like) gene in Aspergillus nidulans is responsible for microperfuranone biosynthesis

    Energy Technology Data Exchange (ETDEWEB)

    Yeh, Hsu-Hua; Chiang, Yi Ming; Entwistle, Ruth; Ahuja, Mammeet; Lee, Kuan-Han; Bruno, Kenneth S.; Wu, Tung-Kung; Oakley, Berl R.; Wang, Clay C.

    2012-04-10

    Genome sequencing of Aspergillus species including A. nidulans has revealed that there are far more secondary metabolite biosynthetic gene clusters than secondary metabolites isolated from these organisms. This implies that these organisms can produce additional secondary metabolites have not yet been elucidated. The A. nidulans genome contains twelve nonribosomal peptide synthetase (NRPS), one hybrid polyketide synthase/nonribosomal peptide synthetase (PKS/NRPS), and fourteen NRPS-like genes. The only NRPS-like gene in A. nidulans with a known product is tdiA which is involved in terrequinone A biosynthesis. To attempt to identify the products of these NRPS-like genes, we replaced the native promoters of the NRPS-like genes with the inducible alcohol dehydrogenase (alcA) promoter. Our results demonstrated that induction of the single NRPS-like gene AN3396.4 led to the enhanced production of microperfuranone. Furthermore, heterologous expression of AN3396.4 in A. niger confirmed that only one NRPS-like gene, AN3396.4, is necessary for the production of microperfuranone.

  16. Specific activation of 2'-5'oligoadenylate synthetase gene promoter by hepatitis C virus-core protein: A potential for developing hepatitis C virus targeting gene therapy

    Institute of Scientific and Technical Information of China (English)

    Ying Wang; Shan-Shan Mao; Qiong-Qiong He; Yuan Zi; Ji-Fang Wen; De-Yun Feng

    2009-01-01

    AIM: To examine whether 2'-5'oligoadenylate synthetase (OAS) gene promoter can be specifically activated by hepatitis C virus (HCV)-core protein.METHODS: Human embryo hepatic cell line L02 was transfected with pcDNA3.1-core plasmid and selected by G418. Expression of HCV-core was detected by reverse transcription polymerase chain reaction and Western blotting. The OAS promoter sequence was amplified from the genomic DNA and inserted into pGL3-basic vector. The resultant pGL3-OAS-Luci plasmid was transiently transfected into L02/core cells and luciferase activity was assayed.RESULTS: L02/core cell line stably expressing HCV-core protein was established. The pGL3-OAS-Luci construct exhibited significant transcriptional activity in the L02/core cells but not in the L02 cells.CONCLUSION: HCV-core protein activates the OAS gene promoter specifically and effectively. Utilization of OAS gene promoter would be an ideal strategy for developing HCV-specific gene therapy.

  17. Alanyl-tRNA synthetase genes of Vanderwaltozyma polyspora arose from duplication of a dual-functional predecessor of mitochondrial origin.

    Science.gov (United States)

    Chang, Chia-Pei; Tseng, Yi-Kuan; Ko, Chou-Yuan; Wang, Chien-Chia

    2012-01-01

    In eukaryotes, the cytoplasmic and mitochondrial forms of a given aminoacyl-tRNA synthetase (aaRS) are typically encoded by two orthologous nuclear genes, one of eukaryotic origin and the other of mitochondrial origin. We herein report a novel scenario of aaRS evolution in yeast. While all other yeast species studied possess a single nuclear gene encoding both forms of alanyl-tRNA synthetase (AlaRS), Vanderwaltozyma polyspora, a yeast species descended from the same whole-genome duplication event as Saccharomyces cerevisiae, contains two distinct nuclear AlaRS genes, one specifying the cytoplasmic form and the other its mitochondrial counterpart. The protein sequences of these two isoforms are very similar to each other. The isoforms are actively expressed in vivo and are exclusively localized in their respective cellular compartments. Despite the presence of a promising AUG initiator candidate, the gene encoding the mitochondrial form is actually initiated from upstream non-AUG codons. A phylogenetic analysis further revealed that all yeast AlaRS genes, including those in V. polyspora, are of mitochondrial origin. These findings underscore the possibility that contemporary AlaRS genes in V. polyspora arose relatively recently from duplication of a dual-functional predecessor of mitochondrial origin.

  18. Genetic and biomedical studies demonstrating a second gene coding for asparagine synthetase in Escherichia coli.

    OpenAIRE

    Humbert, R; Simoni, R D

    1980-01-01

    Genetic experiments have indicated that asparagine auxotrophs of Escherichias coli K-12 can be made asparagine prototrophs at either of two sites on the chromosome and that wild-type strains require both sites to be mutated to produce asparagine auxotrophy. The former asn locus is now called asnA, and the new gene is designated asnB. The asnB gene is located near gal.AsnA+ asnB and asnA asnB+ strains were constructed, and the asparagine synthetic reaction was characterized in extracts. These ...

  19. Quick guide to polyketide synthase and nonribosomal synthetase genes in Fusarium

    DEFF Research Database (Denmark)

    Hansen, Jørgen T.; Sørensen, Jens L.; Giese, Henriette;

    2012-01-01

    Fusarium species produce a plethora of bioactive polyketides and nonribosomal peptides that give rise to health problems in animals and may have drug development potential. Using the genome sequences for Fusarium graminearum, F. oxysporum, F. solani and F. verticillioides we developed a framework...... and NRPS genes in sequenced Fusarium species and their known products. With the rapid increase in the number of sequenced fungal genomes a systematic classification will greatly aid the scientific community in obtaining an overview of the number of different NRPS and PKS genes and their potential...

  20. Tricistronic operon expression of the genes gcaD (tms), which encodes N-acetylglucosamine 1-phosphate uridyltransferase, prs, which encodes phosphoribosyl diphosphate synthetase, and ctc in vegetative cells of Bacillus subtilis

    DEFF Research Database (Denmark)

    Hilden, Ida; Krath, Britta N.; Hove-Jensen, Bjarne

    1995-01-01

    The gcaD, prs, and ctc genes were shown to be organized as a tricistronic operon. The transcription of the prs gene, measured as phosphoribosyl diphosphate synthetase activity, and of the ctc gene, measured as β-galactosidase activity specified by a ctc-lacZ protein fusion, were dependent on the ...

  1. Tricistronic operon expression of the genes gcaD (tms), which encodes N-acetylglucosamine 1-phosphate uridyltransferase, prs, which encodes phosphoribosyl diphosphate synthetase, and ctc in vegetative cells of Bacillus subtilis

    DEFF Research Database (Denmark)

    Hilden, Ida; Krath, Britta N.; Hove-Jensen, Bjarne

    1995-01-01

    The gcaD, prs, and ctc genes were shown to be organized as a tricistronic operon. The transcription of the prs gene, measured as phosphoribosyl diphosphate synthetase activity, and of the ctc gene, measured as β-galactosidase activity specified by a ctc-lacZ protein fusion, were dependent...

  2. Molecular evolution of glutamine synthetase II: Phylogenetic evidence of a non-endosymbiotic gene transfer event early in plant evolution

    Directory of Open Access Journals (Sweden)

    Tartar Aurélien

    2010-06-01

    Full Text Available Abstract Background Glutamine synthetase (GS is essential for ammonium assimilation and the biosynthesis of glutamine. The three GS gene families (GSI, GSII, and GSIII are represented in both prokaryotic and eukaryotic organisms. In this study, we examined the evolutionary relationship of GSII from eubacterial and eukaryotic lineages and present robust phylogenetic evidence that GSII was transferred from γ-Proteobacteria (Eubacteria to the Chloroplastida. Results GSII sequences were isolated from four species of green algae (Trebouxiophyceae, and additional green algal (Chlorophyceae and Prasinophytae and streptophyte (Charales, Desmidiales, Bryophyta, Marchantiophyta, Lycopodiophyta and Tracheophyta sequences were obtained from public databases. In Bayesian and maximum likelihood analyses, eubacterial (GSIIB and eukaryotic (GSIIE GSII sequences formed distinct clades. Both GSIIB and GSIIE were found in chlorophytes and early-diverging streptophytes. The GSIIB enzymes from these groups formed a well-supported sister clade with the γ-Proteobacteria, providing evidence that GSIIB in the Chloroplastida arose by horizontal gene transfer (HGT. Bayesian relaxed molecular clock analyses suggest that GSIIB and GSIIE coexisted for an extended period of time but it is unclear whether the proposed HGT happened prior to or after the divergence of the primary endosymbiotic lineages (the Archaeplastida. However, GSIIB genes have not been identified in glaucophytes or red algae, favoring the hypothesis that GSIIB was gained after the divergence of the primary endosymbiotic lineages. Duplicate copies of the GSIIB gene were present in Chlamydomonas reinhardtii, Volvox carteri f. nagariensis, and Physcomitrella patens. Both GSIIB proteins in C. reinhardtii and V. carteri f. nagariensis had N-terminal transit sequences, indicating they are targeted to the chloroplast or mitochondrion. In contrast, GSIIB proteins of P. patens lacked transit sequences, suggesting

  3. Purification, gene cloning, and characterization of γ-butyrobetainyl CoA synthetase from Agrobacterium sp. 525a.

    Science.gov (United States)

    Fujimitsu, Hiroshi; Matsumoto, Akira; Takubo, Sayaka; Fukui, Akiko; Okada, Kazuma; Mohamed Ahmed, Isam A; Arima, Jiro; Mori, Nobuhiro

    2016-08-01

    The report is the first of purification, overproduction, and characterization of a unique γ-butyrobetainyl CoA synthetase from soil-isolated Agrobacterium sp. 525a. The primary structure of the enzyme shares 70-95% identity with those of ATP-dependent microbial acyl-CoA synthetases of the Rhizobiaceae family. As distinctive characteristics of the enzyme of this study, ADP was released in the catalytic reaction process, whereas many acyl CoA synthetases are annotated as an AMP-forming enzyme. The apparent Km values for γ-butyrobetaine, CoA, and ATP were, respectively, 0.69, 0.02, and 0.24 mM. PMID:27125317

  4. Island-wide diversity in single nucleotide polymorphisms of the Plasmodium vivax dihydrofolate reductase and dihydropteroate synthetase genes in Sri Lanka

    DEFF Research Database (Denmark)

    Schousboe, Mette L; Rajakaruna, Rupika S; Salanti, Ali;

    2007-01-01

    BACKGROUND: Single nucleotide polymorphisms (SNPs) in the Plasmodium vivax dihydrofolate reductase (Pfdhfr) and dihydropteroate synthetase (Pvdhps) genes cause parasite resistance to the antifolate drug combination, sulphadoxine/pyrimethamine (SP). Monitoring these SNPs provide insights...... into the level of drug pressure caused by SP use and presumably other antifolate drugs. In Sri Lanka, chloroquine (CQ) with primaquine (PQ) and SP with PQ is used as first and second line treatment, respectively, against uncomplicated Plasmodium falciparum and/or P. vivax infections. CQ/PQ is still efficacious...... and diversity of Pvdhfr mutations was unexpected indicating the emergence of drug resistant parasites despite a low level of SP drug pressure....

  5. Cereulide synthetase gene cluster from emetic Bacillus cereus: Structure and location on a mega virulence plasmid related to Bacillus anthracis toxin plasmid pXO1

    Directory of Open Access Journals (Sweden)

    Wagner Martin

    2006-03-01

    Full Text Available Abstract Background Cereulide, a depsipeptide structurally related to valinomycin, is responsible for the emetic type of gastrointestinal disease caused by Bacillus cereus. Recently, it has been shown that this toxin is produced by a nonribosomal peptide synthetase (NRPS, but its exact genetic organization and biochemical synthesis is unknown. Results The complete sequence of the cereulide synthetase (ces gene cluster, which encodes the enzymatic machinery required for the biosynthesis of cereulide, was dissected. The 24 kb ces gene cluster comprises 7 CDSs and includes, besides the typical NRPS genes like a phosphopantetheinyl transferase and two CDSs encoding enzyme modules for the activation and incorporation of monomers in the growing peptide chain, a CDS encoding a putative hydrolase in the upstream region and an ABC transporter in the downstream part. The enzyme modules responsible for incorporation of the hydroxyl acids showed an unusual structure while the modules responsible for the activation of the amino acids Ala and Val showed the typical domain organization of NRPS. The ces gene locus is flanked by genetic regions with high homology to virulence plasmids of B. cereus, Bacillus thuringiensis and Bacillus anthracis. PFGE and Southern hybridization showed that the ces genes are restricted to emetic B. cereus and indeed located on a 208 kb megaplasmid, which has high similarities to pXO1-like plasmids. Conclusion The ces gene cluster that is located on a pXO1-like virulence plasmid represents, beside the insecticidal and the anthrax toxins, a third type of B. cereus group toxins encoded on megaplasmids. The ces genes are restricted to emetic toxin producers, but pXO1-like plasmids are also present in emetic-like strains. These data might indicate the presence of an ancient plasmid in B. cereus which has acquired different virulence genes over time. Due to the unusual structure of the hydroxyl acid incorporating enzyme modules of Ces

  6. Identification of the Fucose Synthetase Gene in the Colanic Acid Gene Cluster of Escherichia coli K-12

    OpenAIRE

    Andrianopoulos, Kanella; WANG Lei; Reeves, Peter R.

    1998-01-01

    GDP–l-fucose, the substrate for fucosyltransferases for addition of fucose to polysaccharides or glycoproteins in both procaryotes and eucaryotes, is made from GDP–d-mannose. l-Fucose is a component of bacterial surface antigens, including the extracellular polysaccharide colanic acid produced by most Escherichia coli strains. We previously sequenced the E. coli colanic acid gene cluster and identified one of the GDP–l-fucose biosynthetic pathway genes, gmd. We report here the identification ...

  7. 2-Acetyl-1-pyrroline augmentation in scented indica rice (Oryza sativa L.) varieties through Δ(1)-pyrroline-5-carboxylate synthetase (P5CS) gene transformation.

    Science.gov (United States)

    Kaikavoosi, Kayghobad; Kad, Trupti D; Zanan, Rahul L; Nadaf, Altafhusain B

    2015-12-01

    2-Acetyl-1-pyrroline (2AP) has been identified as a principal aroma compound in scented rice varieties. Δ(1)-Pyrroline-5-carboxylate synthetase (P5CS) gene is reported to regulate the proline synthesis in plants and acts as the precursor of 2AP. Two scented indica rice varieties, namely Ambemohar 157 and Indrayani, were subjected to Agrobacterium tumefaciens-mediated genetic transformation containing P5CS gene. Overexpression of P5CS led to a significant increase in proline, P5CS enzyme activity and 2AP levels in transgenic calli, vegetative plant parts, and seeds over control in both the varieties. 2AP level increased more than twofold in transgenic seeds in both varieties. This is the first report of enhancement in 2AP content through overexpression of using P5CS gene, indicating the role of proline as a precursor amino acid in the biosynthesis of 2AP in scented rice.

  8. PRS1 is a key member of the gene family encoding phosphoribosylpyrophosphate synthetase in Saccharomyces cerevisiae

    DEFF Research Database (Denmark)

    Carter, Andrew T.; Beiche, Flora; Hove-Jensen, Bjarne;

    1997-01-01

    In Saccharomyces cerevisiae the metabolite phosphoribosyl-pyrophosphate (PRPP) is required for purine, pyrimidine, tryptophan and histidine biosynthesis. Enzymes that can synthesize PRPP can be encoded by at least four genes. We have studied 5-phospho-ribosyl-1(α)-pyrophosphate synthetases (PRS......) genetically and biochemically. Each of the four genes, all of which are transcribed, has been disrupted in haploid yeast strains of each mating type and although all disruptants are able to grow on complete medium, differences in growth rate and enzyme activity suggest that disruption of PRS1 or PRS3 has a...... significant effect on cell metabolism, whereas disruption of PRS2 or PRS4 has little measurable effect. Using Western blot analysis with antisera raised against peptides derived from the non-homology region (NHR) and the N-terminal half of the PRS1 gene product it has been shown that the NHR is not removed by...

  9. Transcription Activity of Individual rrn Operons in Bacillus subtilis Mutants Deficient in (p)ppGpp Synthetase Genes, relA, yjbM, and ywaC▿ †

    OpenAIRE

    Natori, Yousuke; Tagami, Kazumi; Murakami, Kana; Yoshida, Sawako; Tanigawa, Osamu; Moh, Yoonsuh; MASUDA, KENTA; Wada, Tetsuya; Suzuki, Shota; Nanamiya, Hideaki; Tozawa, Yuzuru; Kawamura, Fujio

    2009-01-01

    In Bacillus subtilis a null mutation of the relA gene, whose gene product is involved in the synthesis and/or hydrolysis of (p)ppGpp, causes a growth defect that can be suppressed by mutation(s) of yjbM and/or ywaC coding for small (p)ppGpp synthetases. All 35 suppressor mutations newly isolated were classified into two groups, either yjbM or ywaC, by mapping and sequencing their mutations, suggesting that there are no (p)ppGpp synthetases other than RelA, YjbM, and YwaC in B. subtilis. In or...

  10. The Populus superoxide dismutase gene family and its responses to drought stress in transgenic poplar overexpressing a pine cytosolic glutamine synthetase (GS1a.

    Directory of Open Access Journals (Sweden)

    Juan Jesús Molina-Rueda

    Full Text Available BACKGROUND: Glutamine synthetase (GS plays a central role in plant nitrogen assimilation, a process intimately linked to soil water availability. We previously showed that hybrid poplar (Populus tremula X alba, INRA 717-1B4 expressing ectopically a pine cytosolic glutamine synthetase gene (GS1a display enhanced tolerance to drought. Preliminary transcriptome profiling revealed that during drought, members of the superoxide dismutase (SOD family were reciprocally regulated in GS poplar when compared with the wild-type control, in all tissues examined. SOD was the only gene family found to exhibit such patterns. RESULTS: In silico analysis of the Populus genome identified 12 SOD genes and two genes encoding copper chaperones for SOD (CCSs. The poplar SODs form three phylogenetic clusters in accordance with their distinct metal co-factor requirements and gene structure. Nearly all poplar SODs and CCSs are present in duplicate derived from whole genome duplication, in sharp contrast to their predominantly single-copy Arabidopsis orthologs. Drought stress triggered plant-wide down-regulation of the plastidic copper SODs (CSDs, with concomitant up-regulation of plastidic iron SODs (FSDs in GS poplar relative to the wild type; this was confirmed at the activity level. We also found evidence for coordinated down-regulation of other copper proteins, including plastidic CCSs and polyphenol oxidases, in GS poplar under drought conditions. CONCLUSIONS: Both gene duplication and expression divergence have contributed to the expansion and transcriptional diversity of the Populus SOD/CCS families. Coordinated down-regulation of major copper proteins in drought-tolerant GS poplars supports the copper cofactor economy model where copper supply is preferentially allocated for plastocyanins to sustain photosynthesis during drought. Our results also extend previous findings on the compensatory regulation between chloroplastic CSDs and FSDs, and suggest that this

  11. Nonribosomal Peptide Synthetase Genes pesL and pes1 Are Essential for Fumigaclavine C Production in Aspergillus fumigatus

    DEFF Research Database (Denmark)

    O'Hanlon, Karen A.; Gallagher, Lorna; Schrettl, Markus;

    2012-01-01

    The identity of metabolites encoded by the majority of nonribosomal peptide synthetases in the opportunistic pathogen, Aspergillus fumigatus, remains outstanding. We found that the nonribosomal peptide (NRP) synthetases PesL and Pes1 were essential for fumigaclavine C biosynthesis, the end product...... of the complex ergot alkaloid (EA) pathway in A. fumigatus. Deletion of either pesL (ΔpesL) or pes1 (Δpes1) resulted in complete loss of fumigaclavine C biosynthesis, relatively increased production of fumitremorgins such as TR-2, fumitremorgin C and verruculogen, increased sensitivity to H2O2, and increased...... sensitivity to the antifungals, voriconazole, and amphotericin B. Deletion of pesL resulted in severely reduced virulence in an invertebrate infection model (P

  12. Evidence that the mitochondrial leucyl tRNA synthetase (LARS2) gene represents a novel type 2 diabetes susceptibility gene

    NARCIS (Netherlands)

    L.M. 't Hart (Leen); H.A.P. Pols (Huib); T. Hansen (Torben); I. Rietveld (Ingrid); J.M. Dekker (Jacqueline); J.A. Maassen (Johannes); M.G.A.A.M. Nijpels (Giel); G.M.C. Janssen (George); P.P. Arp (Pascal); R.J. Heine (Robert); A.G. Uitterlinden (André); T. Jorgensen (Torben); C.M. van Duijn (Cock); K. Borch-Johnsen; O. Pedersen (Oluf)

    2005-01-01

    textabstractPreviously, we have shown that a mutation in the mitochondrial DNA-encoded tRNA(Leu(UUR)) gene is associated with type 2 diabetes. One of the consequences of this mutation is a reduced aminoacylation of tRNA(Leu(UUR)). In this study, we have examined whether variants in the leucyl tRNA s

  13. Molecular genetic analysis reveals that a nonribosomal peptide synthetase-like (NRPS-like) gene in Aspergillus nidulans is responsible for microperfuranone biosynthesis.

    Science.gov (United States)

    Yeh, Hsu-Hua; Chiang, Yi-Ming; Entwistle, Ruth; Ahuja, Manmeet; Lee, Kuan-Han; Bruno, Kenneth S; Wu, Tung-Kung; Oakley, Berl R; Wang, Clay C C

    2012-11-01

    Genome sequencing of Aspergillus species including Aspergillus nidulans has revealed that there are far more secondary metabolite biosynthetic gene clusters than secondary metabolites isolated from these organisms. This implies that these organisms can produce additional secondary metabolites, which have not yet been elucidated. The A. nidulans genome contains 12 nonribosomal peptide synthetase (NRPS), one hybrid polyketide synthase/NRPS, and 14 NRPS-like genes. The only NRPS-like gene in A. nidulans with a known product is tdiA, which is involved in terrequinone A biosynthesis. To attempt to identify the products of these NRPS-like genes, we replaced the native promoters of the NRPS-like genes with the inducible alcohol dehydrogenase (alcA) promoter. Our results demonstrated that induction of the single NRPS-like gene AN3396.4 led to the enhanced production of microperfuranone. Furthermore, heterologous expression of AN3396.4 in Aspergillus niger confirmed that only one NRPS-like gene, AN3396.4, is necessary for the production of microperfuranone.

  14. Expression of phosphoribosyl pyrophosphate synthetase genes in U87 glioma cells with ERN1 knockdown: effect of hypoxia and endoplasmic reticulum stress.

    Science.gov (United States)

    Minchenko, O H; Garmash, I A; Kovalevska, O V; Tsymbal, D O; Minchenko, D O

    2014-01-01

    Activation of pentose phosphate pathway is an important factor of enhanced cell proliferation and tumor growth. Phosphoribosyl pyrophosphate synthetase (PRPS) is a key enzyme of this pathway and plays a central role in the synthesis of purines and pyrimidines. Hypoxia as well as ERN1 (from endoplasmic reticulum to nuclei-1) mediated endoplasmic reticulum stress response-signalling pathway is linked to the proliferation because the blockade of ERN1 suppresses tumor growth, including glioma. We studied the expression of different PRPS genes in glioma cells with ERN1 knockdown under hypoxic condition. It was shown that hypoxia decreases the expression of PRPS1 and PRPS2 genes in both types of glioma cells, being more pronounced in cells without ERN1 function, but PRPSAP1 and PRPSAP2 gene expressions are suppressed by hypoxia only in glioma cells with blockade of ERN1. Moreover, the blockade of endoribonuclease activity of ERN1 does not affect the expression of PRPS1 and PRPS2 as well as PPRS-associated protein genes in U87 glioma cells. At the same time, the induction of endoplasmic reticulum stress by tunicamycin in glioma cells with suppressed activity of ERN1 endoribonuclease decreases the expression level of PRPS1 and PRPS2 genes only. Results of this investigation clearly demonstrated that the expression of different genes encoding subunits of PRPS enzyme is affected by hypoxia in U87 glioma cells, but the effect of hypoxia is modified by suppression of endoplasmic reticulum stress signaling enzyme ERN1. PMID:25816608

  15. Organisation and sequence determination of glutamine-dependent carbamoyl phosphate synthetase II in Toxoplasma gondii.

    Science.gov (United States)

    Fox, Barbara A; Bzik, David J

    2003-01-01

    Carbamoyl phosphate synthetase II encodes the first enzymic step of de novo pyrimidine biosynthesis. Carbamoyl phosphate synthetase II is essential for Toxoplasma gondii replication and virulence. In this study, we characterised the primary structure of a 28kb gene encoding Toxoplasma gondii carbamoyl phosphate synthetase II. The carbamoyl phosphate synthetase II gene was interrupted by 36 introns. The predicted protein encoded by the 37 carbamoyl phosphate synthetase II exons was a 1,687 amino acid polypeptide with an N-terminal glutamine amidotransferase domain fused with C-terminal carbamoyl phosphate synthetase domains. This bifunctional organisation of carbamoyl phosphate synthetase II is unique, so far, to protozoan parasites from the phylum Apicomplexa (Plasmodium, Babesia, Toxoplasma) or zoomastigina (Trypanosoma, Leishmania). Apicomplexan parasites possessed the largest carbamoyl phosphate synthetase II enzymes due to insertions in the glutamine amidotransferase and carbamoyl phosphate synthetase domains that were not present in the corresponding gene segments from bacteria, plants, fungi and mammals. The C-terminal allosteric regulatory domain, the carbamoyl phosphate synthetase linker domain and the oligomerisation domain were also distinct from the corresponding domains in other species. The novel C-terminal regulatory domain may explain the lack of activation of Toxoplasma gondii carbamoyl phosphate synthetase II by the allosteric effector 5-phosphoribosyl 1-pyrophosphate. Toxoplasma gondii growth in vitro was markedly inhibited by the glutamine antagonist acivicin, an inhibitor of glutamine amidotransferase activity typically associated with carbamoyl phosphate synthetase II, guanosine monophosphate synthetase, or CTP synthetase. PMID:12547350

  16. 高等植物谷氨酰胺合成酶基因的研究进展%Research Progress of Glutamine Synthetase Gene in Higher Plants

    Institute of Scientific and Technical Information of China (English)

    于瑶; 张汉尧; 杜建伟

    2012-01-01

    Nitrogen is an important nutrient for plant growth, but the exogenous inorganic nitrogen must be assimilated into organic nitrogen which can be absorbed by higher plants. Glutamine synthetase ( GS) is the key enzyme involved in the process of nitrogen assimilation. In this article, the types, function, physicochemical and molecular biology properties and the gene expression of GS were summarized.%氮是植物生长的一个重要营养元素,但外源无机氮必须经氮同化转化为有机氮才能为植物所利用.谷氨酰胺合成酶(GS)是参与氮同化过程的关键酶,本文从GS种类、功能、理化和分子生物学性质及基因表达调控等方面介绍了其研究进展.

  17. Lack of Correlation between Ammonium Accumulation and Survival of Transgenic Birch Plants with Pine Cytosolic Glutamine Synthetase Gene after “Basta” Herbicide Treatment

    Directory of Open Access Journals (Sweden)

    Vadim Lebedev

    2015-01-01

    Full Text Available Transformation of plants with genes encoding a glutamine synthetase (GS, a key nitrogen metabolism enzyme, is usually used to increase productivity. However, overexpression of these genes may increase resistance to phosphinothricin (PPT that irreversibly inhibits GS causing ammonium accumulation in plant tissues. Transgenic plants of two birch (Betula pubescens genotypes expressing a pine cytosolic GS gene were used for studying the PPT effect on trees. Two control and 8 transgenic lines were treated with herbicide “Basta” at dose equivalent to 2.5 and 5 Lha−1. Necrosis and abscission of leaves occurred irrespective of a transgenic status or the treatment dose. Ammonium content in leaf tissue in 3 days after the 5 Lha−1 treatment was substantially increased in all plants, 3.2–16.0 times depending on line. After the 2.5 Lha−1 treatment, ammonium content in three transgenic lines was not different from that in control variant sprayed with water. The herbicide treatment caused more prominent desiccation in the bp3f1 genotype nontransgenic plants as compared to transgenic plants, but not in the bp4a genotype. Lack of correlation between ammonium levels and survival of transgenic plants suggests that ammonium toxicity is not a main reason for the birch plant death after the PPT treatment.

  18. A Deoxynivalenol-Activated Methionyl-tRNA Synthetase Gene from Wheat Encodes a Nuclear Localized Protein and Protects Plants Against Fusarium Pathogens and Mycotoxins.

    Science.gov (United States)

    Zuo, Dong-Yun; Yi, Shu-Yuan; Liu, Rong-Jing; Qu, Bo; Huang, Tao; He, Wei-Jie; Li, Cheng; Li, He-Ping; Liao, Yu-Cai

    2016-06-01

    Fusarium graminearum is the fungal pathogen that causes globally important diseases of cereals and produces mycotoxins such as deoxynivalenol (DON). Owing to the dearth of available sources of resistance to Fusarium pathogens, characterization of novel genes that confer resistance to mycotoxins and mycotoxin-producing fungi is vitally important for breeding resistant crop varieties. In this study, a wheat methionyl-tRNA synthetase (TaMetRS) gene was identified from suspension cell cultures treated with DON. It shares conserved aminoacylation catalytic and tRNA anticodon binding domains with human MetRS and with the only previously characterized plant MetRS, suggesting that it functions in aminoacylation in the cytoplasm. However, the TaMetRS comprises a typical nuclear localization signal and cellular localization studies with a TaMetRS::GFP fusion protein showed that TaMetRS is localized in the nucleus. Expression of TaMetRS was activated by DON treatment and by infection with a DON-producing F. graminearum strain in wheat spikes. No such activation was observed following infection with a non-DON-producing F. graminearum strain. Expression of TaMetRS in Arabidopsis plants conferred significant resistance to DON and F. graminearum. These results indicated that this DON-activated TaMetRS gene may encode a novel type of MetRS in plants that has a role in defense and detoxification.

  19. A Deoxynivalenol-Activated Methionyl-tRNA Synthetase Gene from Wheat Encodes a Nuclear Localized Protein and Protects Plants Against Fusarium Pathogens and Mycotoxins.

    Science.gov (United States)

    Zuo, Dong-Yun; Yi, Shu-Yuan; Liu, Rong-Jing; Qu, Bo; Huang, Tao; He, Wei-Jie; Li, Cheng; Li, He-Ping; Liao, Yu-Cai

    2016-06-01

    Fusarium graminearum is the fungal pathogen that causes globally important diseases of cereals and produces mycotoxins such as deoxynivalenol (DON). Owing to the dearth of available sources of resistance to Fusarium pathogens, characterization of novel genes that confer resistance to mycotoxins and mycotoxin-producing fungi is vitally important for breeding resistant crop varieties. In this study, a wheat methionyl-tRNA synthetase (TaMetRS) gene was identified from suspension cell cultures treated with DON. It shares conserved aminoacylation catalytic and tRNA anticodon binding domains with human MetRS and with the only previously characterized plant MetRS, suggesting that it functions in aminoacylation in the cytoplasm. However, the TaMetRS comprises a typical nuclear localization signal and cellular localization studies with a TaMetRS::GFP fusion protein showed that TaMetRS is localized in the nucleus. Expression of TaMetRS was activated by DON treatment and by infection with a DON-producing F. graminearum strain in wheat spikes. No such activation was observed following infection with a non-DON-producing F. graminearum strain. Expression of TaMetRS in Arabidopsis plants conferred significant resistance to DON and F. graminearum. These results indicated that this DON-activated TaMetRS gene may encode a novel type of MetRS in plants that has a role in defense and detoxification. PMID:26882849

  20. Mutation in the phosphoribosylpyrophosphate synthetase gene (prs) that results in simultaneous requirements for purine and pyrimidine nucleosides, nicotinamide nucleotide, histidine, and tryptophan in> Escherichia coli

    DEFF Research Database (Denmark)

    Hove-Jensen, Bjarne

    1988-01-01

    A mutant of Escherichia coli harboring a temperature-labile phosphoribosylpyrophosphate (PRPP) synthetase was characterized. Despite the lack of a detectable PRPP pool or PRPP synthetase activity at 40 degrees C, the strain was fully viable at this temperature as long as guanosine, uridine, histi...

  1. Limitations to the development of recombinant human embryonic kidney 293E cells using glutamine synthetase-mediated gene amplification: Methionine sulfoximine resistance.

    Science.gov (United States)

    Yu, Da Young; Noh, Soo Min; Lee, Gyun Min

    2016-08-10

    To investigate the feasibility of glutamine synthetase (GS)-mediated gene amplification in HEK293 cells for the high-level stable production of therapeutic proteins, HEK293E cells were transfected by the GS expression vector containing antibody genes and were selected at various methionine sulfoximine (MSX) concentrations in 96-well plates. For a comparison, CHOK1 cells were transfected by the same GS expression vector and selected at various MSX concentrations. Unlike CHOK1 cells, HEK293E cells producing high levels of antibodies were not selected at all. For HEK293E cells, the number of wells with the cell pool did not decrease with an increase in the concentration of MSX up to 500μM MSX. A q-RT-PCR analysis confirmed that the antibody genes in the HEK293E cells, unlike the CHOK1 cells, were not amplified after increasing the MSX concentration. It was found that the GS activity in HEK293E cells was much higher than that in CHOK1 cells (Pglutamine-free medium, the GS activity of HEK293E cells was approximately 4.8 times higher than that in CHOK1 cells. Accordingly, it is inferred that high GS activity of HEK293E cells results in elevated resistance to MSX and therefore hampers GS-mediated gene amplification by MSX. Thus, in order to apply the GS-mediated gene amplification system to HEK293 cells, the endogenous GS expression level in HEK293 cells needs to be minimized by knock-out or down-regulation methods.

  2. Limitations to the development of recombinant human embryonic kidney 293E cells using glutamine synthetase-mediated gene amplification: Methionine sulfoximine resistance.

    Science.gov (United States)

    Yu, Da Young; Noh, Soo Min; Lee, Gyun Min

    2016-08-10

    To investigate the feasibility of glutamine synthetase (GS)-mediated gene amplification in HEK293 cells for the high-level stable production of therapeutic proteins, HEK293E cells were transfected by the GS expression vector containing antibody genes and were selected at various methionine sulfoximine (MSX) concentrations in 96-well plates. For a comparison, CHOK1 cells were transfected by the same GS expression vector and selected at various MSX concentrations. Unlike CHOK1 cells, HEK293E cells producing high levels of antibodies were not selected at all. For HEK293E cells, the number of wells with the cell pool did not decrease with an increase in the concentration of MSX up to 500μM MSX. A q-RT-PCR analysis confirmed that the antibody genes in the HEK293E cells, unlike the CHOK1 cells, were not amplified after increasing the MSX concentration. It was found that the GS activity in HEK293E cells was much higher than that in CHOK1 cells (Pglutamine-free medium, the GS activity of HEK293E cells was approximately 4.8 times higher than that in CHOK1 cells. Accordingly, it is inferred that high GS activity of HEK293E cells results in elevated resistance to MSX and therefore hampers GS-mediated gene amplification by MSX. Thus, in order to apply the GS-mediated gene amplification system to HEK293 cells, the endogenous GS expression level in HEK293 cells needs to be minimized by knock-out or down-regulation methods. PMID:27288593

  3. Dexamethasone regulates glutamine synthetase expression in rat skeletal muscles

    Science.gov (United States)

    Max, Stephen R.; Konagaya, Masaaki; Konagaya, Yoko; Thomas, John W.; Banner, Carl; Vitkovic, Ljubisa

    1986-01-01

    The regulation of glutamine synthetase by glucocorticoids in rat skeletal muscles was studied. Administration of dexamethasone strikingly enhanced glutamine synthetase activity in plantaris and soleus muscles. The dexamethasone-mediated induction of glutamine synthetase activity was blocked to a significant extent by orally administered RU38486, a glucocorticoid antagonist, indicating the involvement of intracellular glucocorticoid receptors in the induction. Northern blot analysis revealed that dexamethasone-mediated enhancement of glutamine synthetase activity involves dramatically increased levels of glutamine synthetase mRNA. The induction of glutamine synthetase was selective in that glutaminase activity of soleus and plantaris muscles was not increased by dexamethasone. Furthermore, dexamethasone treatment resulted in only a small increase in glutamine synthetase activity in the heart. Accordingly, there was only a slight change in glutamine synthetase mRNA level in this tissue. Thus, glucocorticoids regulate glutamine synthetase gene expression in rat muscles at the transcriptional level via interaction with intracellular glutamine production by muscle and to mechanisms underlying glucocorticoid-induced muscle atrophy.

  4. Arabidopsis Acetyl-Amido Synthetase GH3.5 Involvement in Camalexin Biosynthesis through Conjugation of Indole-3-Carboxylic Acid and Cysteine and Upregulation of Camalexin Biosynthesis Genes

    Institute of Scientific and Technical Information of China (English)

    Mu-Yang Wang; Xue-Ting Liu; Ying Chen; Xiao-Jing Xu; Biao Yu; Shu-Qun Zhang; Qun Li; Zu-Hua He

    2012-01-01

    Camalexin (3-thiazol-2'-yl-indole) is the major phytoalexin found in Arabidopsis thaliana.Several key intermediates and corresponding enzymes have been identified in camalexin biosynthesis through mutant screening and biochemical experiments.Camalexin is formed when indole-3-acetonitrile (IAN)is catalyzed by the cytochrome P450 monooxygenase CYP71A13.Here,we demonstrate that the Arabidopsis GH3.5 protein,a multifunctional acetyl-amido synthetase,is involved in camalexin biosynthesis via conjugating indole-3-carboxylic acid (ICA) and cysteine (Cys) and regulating camalexin biosynthesis genes.Camalexin levels were increased in the activation-tagged mutant gh3.5-1D in both Col-0 and cyp71A13-2 mutant backgrounds after pathogen infection.The recombinant GH3.5 protein catalyzed the conjugation of ICA and Cys to form a possible intermediate indole-3-acyl-cysteinate (ICA(Cys)) in vitro.In support of the in vitro reaction,feeding with ICA and Cys increased camalexin levels in Col-0 and gh3.5-1D.Dihydrocamalexic acid (DHCA),the precursor of camalexin and the substrate for PAD3,was accumulated in gh3.5-1Dlpad3-1,suggesting that ICA(Cys) could be an additional precursor of DHCA for camalexin biosynthesis.Furthermore,expression of the major camalexin biosynthesis genes CYP79B2,CYP71A12,CYP71A13 and PAD3 was strongly induced in gh3.5-1D.Our study suggests that GH3.5 is involved in camalexin biosynthesis through direct catalyzation of the formation of ICA(Cys),and upregulation of the major biosynthetic pathway genes.

  5. Characterization of a glutamine synthetase gene DvGS2 from Dunaliella viridis and biochemical identification of DvGS2-transgenic Arabidopsis thaliana.

    Science.gov (United States)

    Zhu, Chenguang; Fan, Qianlan; Wang, Wei; Shen, Chunlei; Meng, Xiangzong; Tang, Yuanping; Mei, Bing; Xu, Zhengkai; Song, Rentao

    2014-02-25

    The salt-tolerant green alga Dunaliella has remarkable capability to survive in some extreme environments such as nitrogen starvation, which makes Dunaliella be a proper model for mining novel genes on nitrogen uptake or assimilation. In this study, a glutamine synthetase (GS) gene DvGS2 with amino acid identity of 72% to other homologous GS proteins, was isolated and characterized from Dunaliella viridis. Phylogenetic comparison with other GSs revealed that DvGS2 occupied an independent phylogenetic position. Expressional analysis in D. viridis cells under nitrogen starvation confirmed that DvGS2 increased its mRNA level in 12h. Subcellular localization study and functional analysis in a GS-deficient Escherichia coli mutant proved that DvGS2 was a chloroplastic and functional GS enzyme. In order to investigate the potential application of DvGS2 in higher plants, the transgenic studies of DvGS2 in Arabidopsis thaliana were carried out. Results showed that the transgenic lines expressed the DvGS2 gene and demonstrated obviously enhanced root length (29%), fresh weight (40%-48% at two concentrations of nitrate supplies), stem length (21%), leaf size (39%) and silique number (44%) in contrast with the wild-type Arabidopsis. Furthermore, the transgenic lines had higher total nitrogen content (35%-43%), total GS activity (39%-45%) and soluble protein concentration (23%-24%) than the wild type. These results indicated that the overexpression of DvGS2 in A. thaliana resulted in higher biomass and the improvement of the host's nitrogen use efficiency. PMID:24334123

  6. Strong increase of foliar inulin occurs in transgenic lettuce plants (Lactuca sativa L.) overexpressing the Asparagine Synthetase A gene from Escherichia coli.

    Science.gov (United States)

    Sobolev, Anatoli P; Segre, Anna L; Giannino, Donato; Mariotti, Domenico; Nicolodi, Chiara; Brosio, Elvino; Amato, Maria E

    2007-12-26

    Transgenic lettuce (Lactuca sativa L. cv. 'Cortina') lines expressing the asparagine synthetase A gene from Escherichia coli were produced to alter the plant nitrogen status and eventually enhance growth. The relative molecular abundance of water-soluble metabolites was measured by 1H NMR in transgenic and conventional plants at early developmental stages and grown under the same conditions. NMR metabolic profiles assessed that a transgenic line and the wild-type counterpart shared the same compounds, but it also revealed side effects on the carbon metabolism following genetic modification. Concerning the nitrogen status, the amino acid content did not vary significantly, except for glutamic acid and gamma-aminobutyric acid, which diminished in the transgenics. As for the carbon metabolism, in transgenic leaves the contents of sucrose, glucose, and fructose decreased, whereas that of inulin increased up to 30 times, accompanied by the alteration of most Krebs's cycle organic acids and the rise of tartaric acid compared to nontransformed controls. Lettuce leaf inulins consisted of short oligomeric chains made of one glucose unit bound to two/four fructose units. Inulins are beneficial for human health, and they are extracted from plants and commercialized as long-chain types, whereas the short forms are synthesized chemically. Hence, lettuce genotypes with high content of foliar short-chain inulin represent useful materials for breeding strategies and a potential source for low molecular weight inulin.

  7. Acyl coenzyme A synthetase long-chain 1 (ACSL1 gene polymorphism (rs6552828 and elite endurance athletic status: a replication study.

    Directory of Open Access Journals (Sweden)

    Thomas Yvert

    Full Text Available The aim of this study was to determine the association between the rs6552828 polymorphism in acyl coenzyme A synthetase (ACSL1 and elite endurance athletic status. We studied 82 Caucasian (Spanish World/Olympic-class endurance male athletes, and a group of sex and ethnically matched healthy young adults (controls, n=197. The analyses were replicated in a cohort of a different ethnic origin (Chinese of the Han ethnic group, composed of elite endurance athletes (runners [cases, n=241 (128 male] and healthy sedentary adults [controls, n=504 (267 male]. In the Spanish cohort, genotype (P=0.591 and minor allele (A frequencies were similar in cases and controls (P=0.978. In the Chinese cohort, genotype (P=0.973 and minor allele (G frequencies were comparable in female endurance athletes and sedentary controls (P=0.881, whereas in males the frequency of the G allele was higher in endurance athletes (0.40 compared with their controls (0.32, P=0.040. The odds ratio (95%CI for an elite endurance Chinese athlete to carry the G allele compared with ethnically matched controls was 1.381 (1.015-1.880 (P-value=0.04. Our findings suggest that the ACSL1 gene polymorphism rs6552828 is not associated with elite endurance athletic status in Caucasians, yet a marginal association seems to exist for the Chinese (Han male population.

  8. The carB gene encoding the large subunit of carbamoylphosphate synthetase from Lactococcus lactis is transcribed monocistronically

    DEFF Research Database (Denmark)

    Martinussen, Jan; Hammer, Karin

    1998-01-01

    to be an isolated transcriptional unit. Carbamoylphosphate is a precursor in the biosynthesis of both pyrimidine nucleotides and arginine. By mutant analysis L. lactis is shown to possess only one carB gene; the same gene product is thus required for both biosynthetic pathways. Furthermore, arginine may satisfy...... the requirement for carbamoylphosphate in pyrimidine biosynthesis through degradation by the arginine deiminase pathway. The expression of the carB gene is subject to regulation at the level of transcription by pyrimidines most probably by an attenuator mechanism. Upstream of the carB gene, an open reading frame...

  9. Genetics Home Reference: carbamoyl phosphate synthetase I deficiency

    Science.gov (United States)

    Skip to main content Your Guide to Understanding Genetic Conditions Enable Javascript for addthis links to activate. ... Conditions Genes Chromosomes & mtDNA Resources Help Me Understand Genetics Home Health Conditions carbamoyl phosphate synthetase I deficiency ...

  10. Highly effective expression of glutamine synthetase genes GS1 and GS2 in transgenic rice plants increases nitrogen-deficiency tolerance.

    Science.gov (United States)

    Sun, Hui; Huang, Qi-Man; Su, Jin

    2005-10-01

    Glutamine synthetase (GS, EC6.3.1.2) is a key enzyme in ammonia assimilation both in plants and in Gram-negative microorganisms. It plays an important role in efficient use of nitrogen sources and nitrogen metabolism in organisms. Two groups of GS isoenzymes, plastidic (GS2) and cytosolic (GS1), have been identified in higher plants. A plant constitutive expression vector p2GS harboring GS1 and GS2 under the control of rice actin 1 (Act1) and maize ubiquitin (Ubi) promoters was constructed for the first time in a single plasmid, and 3 rounds of ligation and transformation were performed. There has been no report about studies on rice transformation with the two GS enzymes (GS1 and GS2). The p2GS thus constructed was introduced into rice var. Zhonghua 10 by Agrobacterium-mediated transfer method, and transgenic plants with resistance to hygromycin (Hyg) were obtained. Results of PCR and Southern blot analysis showed that the foreign genes have been integrated into the rice genome. The transcription of GS1-GS2 genes in the transformants was also confirmed by Northern blot analysis. The transgenic rice plants thus obtained can grow well in an MS medium in which the nitrogen source was replaced by (NH(4))(2)SO(4) 0.7 mmol/L, and fresh weight of the transformants was significantly higher than the control rice plants. The result suggests that expression of p2GS makes the transgenic rice plants tolerant to nitrogen-deficiency. PMID:16222091

  11. The importance of cytosolic glutamine synthetase in nitrogen assimilation and recycling

    Energy Technology Data Exchange (ETDEWEB)

    Bernard, S.M.; Habash, D.Z.

    2009-07-02

    Glutamine synthetase assimilates ammonium into amino acids, thus it is a key enzyme for nitrogen metabolism. The cytosolic isoenzymes of glutamine synthetase assimilate ammonium derived from primary nitrogen uptake and from various internal nitrogen recycling pathways. In this way, cytosolic glutamine synthetase is crucial for the remobilization of protein-derived nitrogen. Cytosolic glutamine synthetase is encoded by a small family of genes that are well conserved across plant species. Members of the cytosolic glutamine synthetase gene family are regulated in response to plant nitrogen status, as well as to environmental cues, such as nitrogen availability and biotic/abiotic stresses. The complex regulation of cytosolic glutamine synthetase at the transcriptional to post-translational levels is key to the establishment of a specific physiological role for each isoenzyme. The diverse physiological roles of cytosolic glutamine synthetase isoenzymes are important in relation to current agricultural and ecological issues.

  12. Two very long chain fatty acid acyl-CoA synthetase genes, acs-20 and acs-22, have roles in the cuticle surface barrier in Caenorhabditis elegans.

    Directory of Open Access Journals (Sweden)

    Eriko Kage-Nakadai

    Full Text Available In multicellular organisms, the surface barrier is essential for maintaining the internal environment. In mammals, the barrier is the stratum corneum. Fatty acid transport protein 4 (FATP4 is a key factor involved in forming the stratum corneum barrier. Mice lacking Fatp4 display early neonatal lethality with features such as tight, thick, and shiny skin, and a defective skin barrier. These symptoms are strikingly similar to those of a human skin disease called restrictive dermopathy. FATP4 is a member of the FATP family that possesses acyl-CoA synthetase activity for very long chain fatty acids. How Fatp4 contributes to skin barrier function, however, remains to be elucidated. In the present study, we characterized two Caenorhabditis elegans genes, acs-20 and acs-22, that are homologous to mammalian FATPs. Animals with mutant acs-20 exhibited defects in the cuticle barrier, which normally prevents the penetration of small molecules. acs-20 mutant animals also exhibited abnormalities in the cuticle structure, but not in epidermal cell fate or cell integrity. The acs-22 mutants rarely showed a barrier defect, whereas acs-20;acs-22 double mutants had severely disrupted barrier function. Moreover, the barrier defects of acs-20 and acs-20;acs-22 mutants were rescued by acs-20, acs-22, or human Fatp4 transgenes. We further demonstrated that the incorporation of exogenous very long chain fatty acids into sphingomyelin was reduced in acs-20 and acs-22 mutants. These findings indicate that C. elegans Fatp4 homologue(s have a crucial role in the surface barrier function and this model might be useful for studying the fundamental molecular mechanisms underlying human skin barrier and relevant diseases.

  13. Island-wide diversity in single nucleotide polymorphisms of the Plasmodium vivax dihydrofolate reductase and dihydropteroate synthetase genes in Sri Lanka

    Directory of Open Access Journals (Sweden)

    Konradsen Flemming

    2007-03-01

    Full Text Available Abstract Background Single nucleotide polymorphisms (SNPs in the Plasmodium vivax dihydrofolate reductase (Pfdhfr and dihydropteroate synthetase (Pvdhps genes cause parasite resistance to the antifolate drug combination, sulphadoxine/pyrimethamine (SP. Monitoring these SNPs provide insights into the level of drug pressure caused by SP use and presumably other antifolate drugs. In Sri Lanka, chloroquine (CQ with primaquine (PQ and SP with PQ is used as first and second line treatment, respectively, against uncomplicated Plasmodium falciparum and/or P. vivax infections. CQ/PQ is still efficacious against P. vivax infections, thus SP is rarely used and it is assumed that the prevalence of SNPs related to P. vivax SP resistance is low. However, this has not been assessed in Sri Lanka as in most other parts of Asia. This study describes the prevalence and distribution of SNPs related to P. vivax SP resistance across Sri Lanka. Subjects and methods P. vivax-positive samples were collected from subjects presenting at government health facilities across nine of the major malaria endemic districts on the island. The samples were analysed for SNPs/haplotypes at codon 57, 58, 61 and 117 of the Pvdhfr gene and 383, 553 and 585 of the Pvdhps gene by applying PCR followed by a hybridization step using sequence specific oligonucleotide probes (SSOPs in an ELISA format. Results In the study period, the government of Sri Lanka recorded 2,149 P. vivax cases from the nine districts out of which, 454 (21.1% blood samples were obtained. Pvdhfr haplotypes could be constructed for 373 of these. The FSTS wild-haplotype was represented in 257 samples (68.9%, the double mutant LRTS haplotype was the most frequently observed mutant (24.4% while the triple mutation (LRTN was only identified once. Except for two samples of the single mutated Pvdhps GAV haplotype, the remaining samples were wildtype. Geographical differences were apparent, notably a significantly higher

  14. Role of AcsR in expression of the acetyl-CoA synthetase gene in Vibrio vulnificus

    OpenAIRE

    Kim, Min Jung; Kim, Juri; Lee, Hye Yeon; Noh, Hyeon Jin; Lee, Kyu-Ho; Park, Soon-Jung

    2015-01-01

    Background VarS/VarA is one of the global factors regulating diverse aspects of the metabolism and virulence of bacteria including pathogenic Vibrio spp. An experiment to identify the VarS/VarA-regulon in V. vulnificus revealed that a putative LuxR-type transcriptional regulator was down-regulated in ΔvarA mutant. To investigate the roles of this regulatory cascade, the target gene regulated by a LuxR-regulator was identified and its expression was characterized. Results Transcriptomic analys...

  15. Liver fatty acid binding protein (LFABP) transfers fatty acids and fatty acyl coas to membranes

    OpenAIRE

    De Gerónimo, Eduardo; Hagan, Robert M; Wilton, David C.; Córsico, Betina

    2010-01-01

    The objective of this work was to analyze LFABP´s capacity to transfer acyl CoAs to artificial membranes and compare it to LCFA transfer employing natural ligands, in order to better understand the specific physiological role of LFABP in the cell.

  16. Systematic Analysis of Gene Expression Alterations and Clinical Outcomes for Long-Chain Acyl-Coenzyme A Synthetase Family in Cancer.

    Directory of Open Access Journals (Sweden)

    Wei-Ching Chen

    Full Text Available Dysregulated lipid metabolism contributes to cancer progression. Our previous study indicates that long-chain fatty acyl-Co A synthetase (ACSL 3 is essential for lipid upregulation induced by endoplasmic reticulum stress. In this report, we aimed to identify the role of ACSL family in cancer with systematic analysis and in vitro experiment. We explored the ACSL expression using Oncomine database to determine the gene alteration during carcinogenesis and identified the association between ACSL expression and the survival of cancer patient using PrognoScan database. ACSL1 may play a potential oncogenic role in colorectal and breast cancer and play a potential tumor suppressor role in lung cancer. Co-expression analysis revealed that ACSL1 was coexpressed with MYBPH, PTPRE, PFKFB3, SOCS3 in colon cancer and with LRRFIP1, TSC22D1 in lung cancer. In accordance with PrognoScan analysis, downregulation of ACSL1 in colon and breast cancer cell line inhibited proliferation, migration, and anchorage-independent growth. In contrast, increase of oncogenic property was observed in lung cancer cell line by attenuating ACSL1. High ACSL3 expression predicted a better prognosis in ovarian cancer; in contrast, high ACSL3 predicted a worse prognosis in melanoma. ACSL3 was coexpressed with SNUPN, TRIP13, and SEMA5A in melanoma. High expression of ACSL4 predicted a worse prognosis in colorectal cancer, but predicted better prognosis in breast, brain and lung cancer. ACSL4 was coexpressed with SERPIN2, HNRNPCL1, ITIH2, PROCR, LRRFIP1. High expression of ACSL5 predicted good prognosis in breast, ovarian, and lung cancers. ACSL5 was coexpressed with TMEM140, TAPBPL, BIRC3, PTPRE, and SERPINB1. Low ACSL6 predicted a worse prognosis in acute myeloid leukemia. ACSL6 was coexpressed with SOX6 and DARC. Altogether, different members of ACSLs are implicated in diverse types of cancer development. ACSL-coexpressed molecules may be used to further investigate the role of ACSL

  17. Paths of lateral gene transfer of lysyl-aminoacyl-tRNA synthetases with a unique evolutionary transition stage of prokaryotes coding for class I and II varieties by the same organisms

    Directory of Open Access Journals (Sweden)

    Nussinov Ruth

    2006-03-01

    Full Text Available Abstract Background While the premise that lateral gene transfer (LGT is a dominant evolutionary force is still in considerable dispute, the case for widespread LGT in the family of aminoacyl-tRNA synthetases (aaRS is no longer contentious. aaRSs are ancient enzymes, guarding the fidelity of the genetic code. They are clustered in two structurally unrelated classes. Only lysine aminoacyl-tRNA synthetase (LysRS is found both as a class 1 and a class 2 enzyme (LysRS1-2. Remarkably, in several extant prokaryotes both classes of the enzyme coexist, a unique phenomenon that has yet to receive its due attention. Results We applied a phylogenetic approach for determining the extent and origin of LGT in prokaryotic LysRS. Reconstructing species trees for Archaea and Bacteria, and inferring that their last common ancestors encoded LysRS1 and LysRS2, respectively, we studied the gains and losses of both classes. A complex pattern of LGT events emerged. In specific groups of organisms LysRS1 was replaced by LysRS2 (and vice versa. In one occasion, within the alpha proteobacteria, a LysRS2 to LysRS1 LGT was followed by reversal to LysRS2. After establishing the most likely LGT paths, we studied the possible origins of the laterally transferred genes. To this end, we reconstructed LysRS gene trees and evaluated the likely origins of the laterally transferred genes. While the sources of LysRS1 LGTs were readily identified, those for LysRS2 remain, for now, uncertain. The replacement of one LysRS by another apparently transits through a stage simultaneously coding for both synthetases, probably conferring a selective advantage to the affected organisms. Conclusion The family of LysRSs features complex LGT events. The currently available data were sufficient for identifying unambiguously the origins of LysRS1 but not of LysRS2 gene transfers. A selective advantage is suggested to organisms encoding simultaneously LysRS1-2.

  18. Molecular cloning of an ornithine-activating fragment of the gramicidin S synthetase 2 gene from Bacillus brevis and its expression in Escherichia coli.

    OpenAIRE

    Krause, M.; Marahiel, M A; von Döhren, H; Kleinkauf, H

    1985-01-01

    Partially digested chromosomal DNA of Bacillus brevis ATCC 9999, a producer of the cyclic peptide antibiotic gramicidin S, was ligated into the BamHI site of the Escherichia coli expression vector pUR2-Bam. The ligated molecules were used to transfer E. coli to ampicillin resistance. Of 5 X 10(3) colonies tested by in situ immunoassay for a cross-reaction with antibodies against the gramicidin S synthetase 2, 6 colonies were found to be immunoreactive. A clone designated MK2, which had a 3.9-...

  19. Novel Insights into Regulation of Asparagine Synthetase in Conifers

    OpenAIRE

    Canales, Javier; Rueda-López, Marina; Craven-Bartle, Blanca; Avila, Concepción; Cánovas, Francisco M.

    2012-01-01

    Asparagine, a key amino acid for nitrogen storage and transport in plants, is synthesized via the ATP-dependent reaction catalyzed by the enzyme asparagine synthetase (AS; EC 6.3.5.4). In this work, we present the molecular analysis of two full-length cDNAs that encode asparagine synthetase in maritime pine (Pinus pinaster Ait.), PpAS1, and PpAS2. Phylogenetic analyses of the deduced amino acid sequences revealed that both genes are class II AS, suggesting an ancient origin of these genes in ...

  20. Prediction of Plasmodium falciparum resistance to sulfadoxine/pyrimethamine in vivo by mutations in the dihydrofolate reductase and dihydropteroate synthetase genes: a comparative study between sites of differing endemicity

    DEFF Research Database (Denmark)

    Alifrangis, Michael; Enosse, Sonja; Khalil, Insaf F;

    2003-01-01

    Plasmodium falciparum resistance to sulfadoxine/pyrimethamine (S/P) is due to mutations in the dihydrofolate reductase (dhfr) and dihydropteroate synthetase (dhfr) genes. Large-scale screening of the prevalence of these mutations could facilitate the surveillance of the level of S/P resistance...... marker seems debatable. The differences may reflect variation in the duration and magnitude of S/P usage (or other antifolate drugs) between the sites. Thus, triple dhfr mutations may prove suitable only as a general guideline for detecting emerging S/P resistance in areas where S/P has been introduced...... in vivo. The prevalence of mutations in dhfr and dhps in relation to S/P efficacy was studied in four sites of differing endemicity in Sudan, Mozambique, and Tanzania. The sites were organized in order of increasing resistance and a significant increase in the prevalence of triple mutations in codons c51...

  1. Regulation of expression from the glnA promoter of Escherichia coli in the absence of glutamine synthetase.

    OpenAIRE

    Rothstein, D. M.; Pahel, G; Tyler, B.; Magasanik, B

    1980-01-01

    One of the suspected regulators of glutamine synthetase [L-glutamate:ammonia ligase (ADP-forming), EC 6.3.1.2] in enteric bacteria is glutamine synthetase itself. We isolated Escherichia coli strains carrying fusions of the beta-galactosidase structural gene to the promoter of the glutamine synthetase gene, with the aid of the Casadaban Mud1 (ApR, lac, cts62) phage. Some aspects of regulation were retained in haploid fusion strains despite the absence of glutamine synthetase, whereas other as...

  2. Determination of theanine and cloning of theanine synthetase gene in Dabieshan wild Camellia oleifera%大别山野生油茶中茶氨酸检测与茶氨酸合成酶基因克隆

    Institute of Scientific and Technical Information of China (English)

    马林龙; 顾辰辰; 邓威威; 金阳; 宛晓春

    2015-01-01

    characteristic “umami”.Moreover,synthesize theanine has not only positive significance in plant classification,but also great economic value for the effective exploration of the plant resources.Furthermore,the mechanism of theanine synthesis in C.sinensis,separation and purification of theanine synthetase and cloning and expression of TS gene were indirectly studied.And HPLC and LC-TOF/MS were applied to determine theanine in the roots and leaves in the young and mature Dabieshan wild C.oleifera plants while molecular biology methods were used to clone theanine synthetase (TS)gene in C.oleifera;Bioinformatic a-nalysis was carried out to analyze the gene sequence.The results revealed that the theanine content of roots in young C.oleifera plants was 0.08 mg·g-1 (fresh weight).However,theanine was not detected in leaves of young plants.It was also found there was no theanine in the roots and leaves in mature C.oleifera plants.One TS ORF (1 071 bp) was acquired from the roots in young C.oleifera plants.The homology of the cloned TS with glutamine synthetase gene (GS,AB117934)and TS (DD410896)were up to 98%.Moreover,the cloned TS showed a high similarity a-bout 99% to GS (AB117934)and TS (DD410896)from C.sinensis at the protein levels.We found that there were 20 phosphorylation sites in the polypeptide chain after bioinformatic analysis.Bioinformatics prediction showed that the protein contained hydrophilic and winded helix domain.However,there was neither signal peptide nor transmem-brane in the sequences,and the protein was non-secreted which functioned in the cell.This paper would provide theo-retical basis and new approach for study of the synthesis,metabolic pathways and metabolic mechanism of theanine. Furthermore,it was beneficial to develop economical value of C.Oleifera.

  3. Biosynthetic engineering of nonribosomal peptide synthetases.

    Science.gov (United States)

    Kries, Hajo

    2016-09-01

    From the evolutionary melting pot of natural product synthetase genes, microorganisms elicit antibiotics, communication tools, and iron scavengers. Chemical biologists manipulate these genes to recreate similarly diverse and potent biological activities not on evolutionary time scales but within months. Enzyme engineering has progressed considerably in recent years and offers new screening, modelling, and design tools for natural product designers. Here, recent advances in enzyme engineering and their application to nonribosomal peptide synthetases are reviewed. Among the nonribosomal peptides that have been subjected to biosynthetic engineering are the antibiotics daptomycin, calcium-dependent antibiotic, and gramicidin S. With these peptides, incorporation of unnatural building blocks and modulation of bioactivities via various structural modifications have been successfully demonstrated. Natural product engineering on the biosynthetic level is not a reliable method yet. However, progress in the understanding and manipulation of biosynthetic pathways may enable the routine production of optimized peptide drugs in the near future. Copyright © 2016 European Peptide Society and John Wiley & Sons, Ltd. PMID:27465074

  4. Change in ATP-binding cassette B1/19, glutamine synthetase and alcohol dehydrogenase gene expression during root elongation in Betula pendula Roth and Alnus glutinosa L. Gaertn in response to leachate and leonardite humic substances.

    Science.gov (United States)

    Tahiri, Abdelghani; Delporte, Fabienne; Muhovski, Yordan; Ongena, Marc; Thonart, Philippe; Druart, Philippe

    2016-01-01

    Humic substances (HS) are complex and heterogeneous compounds of humified organic matter resulting from the chemical and microbiological decomposition of organic residues. HS have a positive effect on plant growth and development by improving soil structure and fertility. They have long been recognized as plant growth-promoting substances, particularly with regard to influencing nutrient uptake, root growth and architecture. The biochemical and molecular mechanisms through which HS influence plant physiology are not well understood. This study evaluated the bioactivity of landfill leachate and leonardite HS on alder (Alnus glutinosa L. Gaertn) and birch (Betula pendula Roth) during root elongation in vitro. Changes in root development were studied in relation to auxin, carbon and nitrogen metabolisms, as well as to the stress adaptive response. The cDNA fragments of putative genes encoding two ATP-binding cassette (ABC) transporters (ABCB1 and ABCB19) belonging to the B subfamily of plant ABC auxin transporters were cloned and sequenced. Molecular data indicate that HS and their humic acid (HA) fractions induce root growth by influencing polar auxin transport (PAT), as illustrated by the modulation of the ABCB transporter transcript levels (ABCB1 and ABCB19). There were also changes in alcohol dehydrogenase (ADH) and glutamine synthetase (GS) gene transcript levels in response to HS exposure. These findings confirmed that humic matter affects plant growth and development through various metabolic pathways, including hormonal, carbon and nitrogen metabolisms and stress response or signalization.

  5. Change in ATP-binding cassette B1/19, glutamine synthetase and alcohol dehydrogenase gene expression during root elongation in Betula pendula Roth and Alnus glutinosa L. Gaertn in response to leachate and leonardite humic substances.

    Science.gov (United States)

    Tahiri, Abdelghani; Delporte, Fabienne; Muhovski, Yordan; Ongena, Marc; Thonart, Philippe; Druart, Philippe

    2016-01-01

    Humic substances (HS) are complex and heterogeneous compounds of humified organic matter resulting from the chemical and microbiological decomposition of organic residues. HS have a positive effect on plant growth and development by improving soil structure and fertility. They have long been recognized as plant growth-promoting substances, particularly with regard to influencing nutrient uptake, root growth and architecture. The biochemical and molecular mechanisms through which HS influence plant physiology are not well understood. This study evaluated the bioactivity of landfill leachate and leonardite HS on alder (Alnus glutinosa L. Gaertn) and birch (Betula pendula Roth) during root elongation in vitro. Changes in root development were studied in relation to auxin, carbon and nitrogen metabolisms, as well as to the stress adaptive response. The cDNA fragments of putative genes encoding two ATP-binding cassette (ABC) transporters (ABCB1 and ABCB19) belonging to the B subfamily of plant ABC auxin transporters were cloned and sequenced. Molecular data indicate that HS and their humic acid (HA) fractions induce root growth by influencing polar auxin transport (PAT), as illustrated by the modulation of the ABCB transporter transcript levels (ABCB1 and ABCB19). There were also changes in alcohol dehydrogenase (ADH) and glutamine synthetase (GS) gene transcript levels in response to HS exposure. These findings confirmed that humic matter affects plant growth and development through various metabolic pathways, including hormonal, carbon and nitrogen metabolisms and stress response or signalization. PMID:26595095

  6. Molecular Cloning and Expression Analysis of Asparagine Synthetase Gene in Mulberry ( Morus L. )%桑树天冬酰胺合成酶基因的克隆与表达分析

    Institute of Scientific and Technical Information of China (English)

    潘宝华; 潘刚; 方荣俊; 赵卫国; 张林; 程嘉翎; 刘利

    2011-01-01

    天冬酰胺合成酶B(asparagine synthetase,AS-B;EC 6.3.5.4)参与植物氮同化过程的催化与调节.在构建的盐胁迫下桑树(Morus L.)抑制消减杂交(SSH)文库中发现一个编码天冬酰胺合成酶的基因片段,采用cDNA末端快速扩增(RACE)方法获得2 061 bp的全长序列,完整的开放读码框(ORF)长1 761 bp,编码586个氨基酸,预测蛋白分子质量65.66 kD,将该基因命名为桑树天冬酰胺合成酶基因(MaAS,GenBank登录号:HQ025955).序列分析显示,MaAS编码的蛋白包括2个保守的功能域(谷氨酰胺-氨基转移结构域和合成酶结构域),与其它植物天冬酰胺合成酶的氨基酸序列相似性在75%以上.将MaAS基因开放读码框连接到pET28a(+)表达载体中,转化大肠杆菌BL21后,诱导表达的MaAS重组蛋白分子质量大小与预测的分子质量一致.采用邻接法构建的桑树和其它植物基于MaAS蛋白氨基酸序列的系统进化树显示:桑树、葡萄(Vitis vinifera)、毛果杨(Populus trichocarpa)、蓖麻(Ricinus communis)聚为一类,亲缘关系较近.半定量RT-PCR分析表明,MaAS基因在桑树不同部位的转录水平存在明显差异,在盛花期的雌花中转录水平最高,尚未木质化的幼根和成熟桑椹中的转录水平较高,幼茎的茎皮和木质部中的转录水平较低,嫩叶中的转录水平很低,腋芽中的转录水平最低.%Asparagine synthetase B (AS-B, EC 6.3.5.4) participates in catalysis and regulation during nitrogen assimilation of plant. In suppression subtractive hybridization cDNA library from mulberry under salt stress, a cDNA sequence was identified as a part of asparagine synthetase gene. Its full-length cDNA was obtained by rapid amplification of cDNA ends (RACE). It is 2 061 bp long and has a complete open reading frame (ORF) of 1 761 bp, which encodes a protein of 586 amino acid residues with a predicted molecular weight of 65. 66 kD. The gene was designated as mulberry asparagine synthetase gene (Ma

  7. 向日葵S-腺苷甲硫氨酸合成酶基因克隆与分析%Molecular Cloning and Bioinformatic Analysis of S-adenosylmethionine Synthetase Gene from Helianthus annuus

    Institute of Scientific and Technical Information of China (English)

    周向红; 王萍

    2011-01-01

    To investigate contributions of S-adenosylmethionine synthetase ( SAMS) to tolerance to drought and salt in Helianthus annuus,we cloned one SAMS gene (designated as HaSAMSl ) using RT-PCR from H. Annus. The primers were designed according to results of computer-assisted cloning. Total RNAs were isolated from the leaves of H. Annum treated by salt. The HaSAMSl gene contained a complete coding sequence of 1173 bp,encoding the protein of 390 amino acids. HaSAMSl contained signature motifs of SAMS family, but had no membrane spanning domain and signal peptide. The HaSAMSl shared high amino acid sequence identity with the SAMSs from other organisms. The amino acid sequence of HaSAMSl showed 86. 8% - 96. 9% identity with the SAMSs from Chrysanthemum coronarium ,Arabidopsis thaliana and other higher plants. The cloning of HaSAMSl laid a foundation for further investigation of tolerance mechanism to drought and salt in H. Annuus.%为了研究S-腺苷甲硫氨酸合成酶(S-adenosylmethionine synthetase,SAMS)在向日葵(Helianthus annuus)抗旱和耐盐过程中的作用,先根据计算机辅助克隆结果设计引物,抽提盐胁迫向日葵叶片的总RNA,然后采用RT-PCR扩增技术克隆了向日葵的1个SAMS基因(命名为HaSAMS1),HaSAMS1基因的编码序列长1 173bp,编码390个氨基酸残基.HaSAMS1没有跨膜结构域,没有信号肽,含有SAMS蛋白的特征序列.HaSAMS1与其他物种的SAMS具有较高的序列相似性,与茼蒿(Chrysanthemum coronarium)和拟南芥(Arabidopsis thaliana)等高等植物SAMS的氨基酸序列一致性介于86.8% ~96.9%.HaSAMS1基因的克隆为进一步研究向日葵抗旱和耐盐机理奠定了基础.

  8. FOXO1 activates glutamine synthetase gene in mouse skeletal muscles through a region downstream of 3'-UTR: possible contribution to ammonia detoxification.

    Science.gov (United States)

    Kamei, Yasutomi; Hattori, Maki; Hatazawa, Yukino; Kasahara, Tomomi; Kanou, Masanobu; Kanai, Sayaka; Yuan, Xunmei; Suganami, Takayoshi; Lamers, Wouter H; Kitamura, Tadahiro; Ogawa, Yoshihiro

    2014-09-15

    Skeletal muscle is a reservoir of energy in the form of protein, which is degraded under catabolic conditions, resulting in the formation of amino acids and ammonia as a byproduct. The expression of FOXO1, a forkhead-type transcription factor, increases during starvation and exercise. In agreement, transgenic FOXO1-Tg mice that overexpress FOXO1 in skeletal muscle exhibit muscle atrophy. The aim of this study was to examine the role of FOXO1 in amino acid metabolism. The mRNA and protein expressions of glutamine synthetase (GS) were increased in skeletal muscle of FOXO1-Tg mice. Fasting induced FOXO1 and GS expression in wild-type mice but hardly increased GS expression in muscle-specific FOXO1 knockout (FOXO1-KO) mice. Activation of FOXO1 also increased GS mRNA and protein expression in C2C12 myoblasts. Using a transient transfection reporter assay, we observed that FOXO1 activated the GS reporter construct. Mutation of a putative FOXO1-binding consensus sequence in the downstream genomic region of GS decreased basal and FOXO1-dependent reporter activity significantly. A chromatin immunoprecipitation assay showed that FOXO1 was recruited to the 3' region of GS in C2C12 myoblasts. These results suggest that FOXO1 directly upregulates GS expression. GS is considered to mediate ammonia clearance in skeletal muscle. In agreement, an intravenous ammonia challenge increased blood ammonia concentrations to a twofold higher level in FOXO1-KO than in wild-type mice, demonstrating that the capacity for ammonia disposal correlated inversely with the expression of GS in muscle. These data indicate that FOXO1 plays a role in amino acid metabolism during protein degradation in skeletal muscle. PMID:25074987

  9. FOXO1 activates glutamine synthetase gene in mouse skeletal muscles through a region downstream of 3'-UTR: possible contribution to ammonia detoxification.

    Science.gov (United States)

    Kamei, Yasutomi; Hattori, Maki; Hatazawa, Yukino; Kasahara, Tomomi; Kanou, Masanobu; Kanai, Sayaka; Yuan, Xunmei; Suganami, Takayoshi; Lamers, Wouter H; Kitamura, Tadahiro; Ogawa, Yoshihiro

    2014-09-15

    Skeletal muscle is a reservoir of energy in the form of protein, which is degraded under catabolic conditions, resulting in the formation of amino acids and ammonia as a byproduct. The expression of FOXO1, a forkhead-type transcription factor, increases during starvation and exercise. In agreement, transgenic FOXO1-Tg mice that overexpress FOXO1 in skeletal muscle exhibit muscle atrophy. The aim of this study was to examine the role of FOXO1 in amino acid metabolism. The mRNA and protein expressions of glutamine synthetase (GS) were increased in skeletal muscle of FOXO1-Tg mice. Fasting induced FOXO1 and GS expression in wild-type mice but hardly increased GS expression in muscle-specific FOXO1 knockout (FOXO1-KO) mice. Activation of FOXO1 also increased GS mRNA and protein expression in C2C12 myoblasts. Using a transient transfection reporter assay, we observed that FOXO1 activated the GS reporter construct. Mutation of a putative FOXO1-binding consensus sequence in the downstream genomic region of GS decreased basal and FOXO1-dependent reporter activity significantly. A chromatin immunoprecipitation assay showed that FOXO1 was recruited to the 3' region of GS in C2C12 myoblasts. These results suggest that FOXO1 directly upregulates GS expression. GS is considered to mediate ammonia clearance in skeletal muscle. In agreement, an intravenous ammonia challenge increased blood ammonia concentrations to a twofold higher level in FOXO1-KO than in wild-type mice, demonstrating that the capacity for ammonia disposal correlated inversely with the expression of GS in muscle. These data indicate that FOXO1 plays a role in amino acid metabolism during protein degradation in skeletal muscle.

  10. Recurrent Isolated Neonatal Hemolytic Anemia: Think About Glutathione Synthetase Deficiency.

    Science.gov (United States)

    Signolet, Isabelle; Chenouard, Rachel; Oca, Florine; Barth, Magalie; Reynier, Pascal; Denis, Marie-Christine; Simard, Gilles

    2016-09-01

    Hemolytic anemia (HA) of the newborn should be considered in cases of rapidly developing, severe, or persistent hyperbilirubinemia. Several causes of corpuscular hemolysis have been described, among which red blood cell enzyme defects are of particular concern. We report a rare case of red blood cell enzyme defect in a male infant, who presented during his first months of life with recurrent and isolated neonatal hemolysis. All main causes were ruled out. At 6.5 months of age, the patient presented with gastroenteritis requiring hospitalization; fortuitously, urine organic acid chromatography revealed a large peak of 5-oxoproline. Before the association between HA and 5-oxoprolinuria was noted, glutathione synthetase deficiency was suspected and confirmed by a low glutathione synthetase concentration and a collapse of glutathione synthetase activity in erythrocytes. Moreover, molecular diagnosis revealed 2 mutations in the glutathione synthetase gene: a previously reported missense mutation (c.[656A>G]; p.[Asp219Gly]) and a mutation not yet described in the binding site of the enzyme (c.[902T>C]; p.[Leu301Pro]). However, 15 days later, a control sample revealed no signs of 5-oxoprolinuria and the clinical history discovered administration of acetaminophen in the 48 hours before hospitalization. Thus, in this patient, acetaminophen exposure allowed the diagnosis of a mild form of glutathione synthetase deficiency, characterized by isolated HA. Early diagnosis is important because treatment with bicarbonate, vitamins C and E, and elimination of trigger factors are recommended to improve long-term outcomes. Glutathione synthetase deficiency should be screened for in cases of unexplained newborn HA. PMID:27581854

  11. Cloning and characterization of the prs gene encoding phosphoribosylpyrophosphate synthetase of Escherichia coli

    DEFF Research Database (Denmark)

    Hove-Jensen, Bjarne

    1985-01-01

    by lysogenic complementation. The prs gene resided on a 5.6 kilobase-pair (kbp) DNA fragment generated by hydrolysis with restriction endonuclease BamHI. The nearby gene pth, encoding peptidyl-tRNA hydrolase, was also on this fragment. Subcloning of the fragment in the multi-copy plasmid pBR322 and subsequent...... and the subunit molecular mass established as 33,000 daltons. Analysis, by the minicell procedure, of plasmids with deletions extending into the prs gene established the direction of transcription as counterclockwise. A putative leader sequence of approximately 400 bp preceded the coding sequence. By deletion...

  12. Characterization of a glutamine synthetase gene DvGS1 from Dunaliella viridis and investigation of the impact on expression of DvGS1 in transgenic Arabidopsis thaliana.

    Science.gov (United States)

    Zhu, Chenguang; Fan, Qianlan; Wang, Wei; Shen, Chunlei; Wang, Peipei; Meng, Xiangzong; Tang, Yuanping; Mei, Bing; Xu, Zhengkai; Song, Rentao

    2014-01-01

    A novel glutamine synthetase (GS) gene DvGS1 showing highest amino acid sequence identity of 78 % with the other homologous GS proteins from green algae, was isolated and characterized from Dunaliella viridis. Phylogenetic analysis revealed that DvGS1 occupied an independent phylogenetic position which was different with the GSs from higher plants, animals and microbes. Functional complement in E. coli mutant confirmed that the DvGS1 encoded functional GS enzyme. Real-time PCR analysis of DvGS1 in D. viridis cells under nitrogen starvation revealed that the mRNA level of DvGS1 was positively up-regulated in 12 h. The DvGS1 levels at the points of 12 and 24 h were separately twofold and fourfold of the level before nitrogen starvation. In order to investigate the potential application of DvGS1 in higher plants, the transgenic study of DvGS1 in Arabidopsis thaliana was carried out. Phenotype identification demonstrated that all three transgenic lines of T3 generation showed obviously enhanced root length (26 %), fresh weight (22-46 % at two concentrations of nitrate supplies), stem length (26 %), leaf size (29 %) and silique number (30 %) compared with the wild-type Arabidopsis. Biochemical analysis confirmed that all three transgenic lines had higher total nitrogen content, soluble protein concentration, total amino acid content and the leaf GS activity than the wild type plants. The free NH4 (+) and NO3 (-) concentration in fresh leaves of three transgenic lines were reduced by 17-26 % and 14-15 % separately (at two concentrations of nitrate supplies) compared with those of the wild types. All the results indicated that over-expression of DvGS1 in Arabidopsis significantly results in the improvement of growth phenotype and the host's nitrogen use efficiency. PMID:24307252

  13. Genetic validation of aminoacyl-tRNA synthetases as drug targets in Trypanosoma brucei.

    Science.gov (United States)

    Kalidas, Savitha; Cestari, Igor; Monnerat, Severine; Li, Qiong; Regmi, Sandesh; Hasle, Nicholas; Labaied, Mehdi; Parsons, Marilyn; Stuart, Kenneth; Phillips, Margaret A

    2014-04-01

    Human African trypanosomiasis (HAT) is an important public health threat in sub-Saharan Africa. Current drugs are unsatisfactory, and new drugs are being sought. Few validated enzyme targets are available to support drug discovery efforts, so our goal was to obtain essentiality data on genes with proven utility as drug targets. Aminoacyl-tRNA synthetases (aaRSs) are known drug targets for bacterial and fungal pathogens and are required for protein synthesis. Here we survey the essentiality of eight Trypanosoma brucei aaRSs by RNA interference (RNAi) gene expression knockdown, covering an enzyme from each major aaRS class: valyl-tRNA synthetase (ValRS) (class Ia), tryptophanyl-tRNA synthetase (TrpRS-1) (class Ib), arginyl-tRNA synthetase (ArgRS) (class Ic), glutamyl-tRNA synthetase (GluRS) (class 1c), threonyl-tRNA synthetase (ThrRS) (class IIa), asparaginyl-tRNA synthetase (AsnRS) (class IIb), and phenylalanyl-tRNA synthetase (α and β) (PheRS) (class IIc). Knockdown of mRNA encoding these enzymes in T. brucei mammalian stage parasites showed that all were essential for parasite growth and survival in vitro. The reduced expression resulted in growth, morphological, cell cycle, and DNA content abnormalities. ThrRS was characterized in greater detail, showing that the purified recombinant enzyme displayed ThrRS activity and that the protein localized to both the cytosol and mitochondrion. Borrelidin, a known inhibitor of ThrRS, was an inhibitor of T. brucei ThrRS and showed antitrypanosomal activity. The data show that aaRSs are essential for T. brucei survival and are likely to be excellent targets for drug discovery efforts. PMID:24562907

  14. Cloning of rat glutamine synthetase gene and its expression in Hela-G cells%大鼠谷氨酰胺合成酶基因的克隆及其在Hela-G细胞中的表达

    Institute of Scientific and Technical Information of China (English)

    孙伟峰; 刘春兴; 邹健

    2011-01-01

    Objective To clone rat glutamine synthetase(GS) gene and to express it in mammalian cells. Methods Rat GS cD NA was amplified by RT-PCR from RNA of rat cerebral cortex tissue. GS cDNA was inserted into eukaryotic expression vector pEGFP-N3. The recombinant expression vector was transiently transfected into Hela-G cells by LipofectamineTM 2000 reagent. The expression of GS in Hela-G cells was detected by immunocytochemistry. Results The sequence of the cloncd GS was confirmed by DNA sequencing. The Hela-G cells transfected with pEGFP-N3-GS could efficicntly express GS protein. Conclusion The cloning of rat GS gene and the construction of its eukaryotic expression vector are successful,which lavs the foundation for further investiga ting the role of GS in astrocytes.%目的 克隆大鼠谷氨酰胺合成酶(GS)基因,构建其真核表达载体,并观察其在Hela-G细胞中的表达. 方法 采用RT-PCR方法,以大鼠大脑皮层总RNA为模板,扩增GS基因,定向克隆到pEGFP-N3载体中.以LipofectamineTM2000试剂转染pEGFP-N3-GS表达载体至Hela-G细胞中进行瞬时真核表达.以免疫细胞化学方法鉴定GS的表达.结果 从大鼠大脑皮层组织中克隆到序列正确的GS全长编码序列.所构建的pEGFP-N3-GS质粒在Hela-G细胞中获得高效表达.结论 大鼠GS基因的克隆、真核表达载体的构建及在Hela-G中的表达获得成功.

  15. 柱状黄杆菌乙酰辅酶A合成酶基因及其上游调控序列分析%Acetyl-coenzyme A synthetase gene and its upstream promoter in the bacterial pathogen Flavobacterium columnare

    Institute of Scientific and Technical Information of China (English)

    张金; 邹红; 姚卫建; 聂品

    2011-01-01

    Flavobacterium columnare, the etiological agent of columnaris disease, is one of the most important bacterial pathogens of freshwater fish in the world. However, suitable genetic manipulation of this bacterium which has been challenging and producing genetic mutations in this bacterium has not been reported. Therefore, isolation of an effective promoter in F. Columnare may provide tools for the development of a genetic manipulation system in the bacterium. In this study, the acetyl-coenzyme A synthetase gene (acs) and flanking sequences were analyzed to determine promoter function. The acs gene is 2 323 bp long, encoding a protein of 635 amino acids. A TAAAA motif was identified as the conserved sequence for ribosome binding site (RBS) and TATTTTCG and TTG were determined to be -7 and -33 promoter motifs, upstream of the acs start codon. When a plasmid was constructed containing the acs upstream regulation sequence (Pacs) fused upstream of the chloramphenicol ace-tyltransferase (cat) gene and was introduced into F. Columnare G4 strain, the host cells gained chloramphenicol (Cm) resistance. The transcriptional start position (TSP) of acs and cat was both determined to be T locating 46 bp upstream of the start codon. Deletion analysis of the promoter showed that at least 164 bp nucleotides upstream of the start codon were required for promoter activity and for the expression of CAT to sufficiently confer the resistance in F. Columnare. Nucleotide analysis and alignment of the putative RBS for 32 protein-coding genes in F. Columnare G4 revealed the conserved RBS consensus, TAAAA, in Flavobacterium located 10 bp upstream of start codon of acs. The current study described the first successful construction of a plasmid that was able to express cloned genes in F. Columnare, which will allow further studies of the important columnaris disease in fish.%柱状黄杆菌(Flavobacterium columnare)是世界范围内危害淡水鱼类的柱形病的病原.目前对该病原菌

  16. Cloning and Expression Analysis of One Gamma-Glutamylcysteine Synthetase Gene (Hbγ-ECS1) in Latex Production in Hevea brasiliensis.

    Science.gov (United States)

    Fang, Wei; Qiao, Luo Shi; Ming, Wu; Jian, Qiu; Feng, Yang Wen; Hua, Gao Hong; Zhou, Xiao Xian

    2016-01-01

    Rubber tree is a major commercial source of natural rubber. Latex coagulation is delayed by thiols, which belong to the important type of antioxidants in laticifer submembrane, and is composed of glutathione (GSH), cysteine, and methionine. The rate-limiting enzyme, γ-ECS, plays an important role in regulating the biosynthesis of glutathione under any environment conditions. To understand the relation between γ-ECS and thiols and to correlate latex flow with one-time tapping and continuous tapping, we cloned and derived the full length of one γ-ECS from rubber tree latex (Hbγ-ECS1). According to qPCR analysis, the expression levels of Hbγ-ECS1 were induced by tapping and Ethrel stimulation, and the expression was related to thiols content in the latex. Continuous tapping induced injury, and the expression of HbγECS1 increased with routine tapping and Ethrel-stimulation tapping (more intensive tapping). According to expression in long-term flowing latex, the gene was related to the duration of latex flow. HbγECS1 was expressed in E. coli Rosetta using pET-sumo as an expression vector and the recombinant enzyme was purified; then we achieved 0.827 U/mg specific activity and about 66 kDa molecular weight. The present study can help us understand the complex role of Hbγ-ECS in thiols biosynthesis, which is influenced by tapping. PMID:27419133

  17. Expression of DNA repair and replication genes in non-small cell lung cancer (NSCLC: a role for thymidylate synthetase (TYMS

    Directory of Open Access Journals (Sweden)

    Kotoula Vassiliki

    2012-08-01

    Full Text Available Abstract Background BRCA1 (B, ERCC1 (E, RRM1 (R and TYMS (T mRNA expression has been extensively studied with respect to NSCLC patient outcome upon various chemotherapy agents. However, these markers have not been introduced into clinical practice yet. One of the reasons seems to be lack of a standard approach for the classification of the reported high/low mRNA expression. The aim of this study was to determine the prognostic/predictive impact of B, E, R, T in routinely-treated NSCLC patients by taking into account the expression of these genes in the normal lung parenchyma. Methods B, E, R, T mRNA expression was examined in 276 NSCLC samples (real-time PCR. The normal range of B, E, R, T transcript levels was first determined in matched tumor – normal pairs and then applied to the entire tumor series. Four main chemotherapy categories were examined: taxanes-without-platinum (Tax; platinum-without-taxanes (Plat; taxanes/platinum doublets (Tax/Plat; and, all-other combinations. Results In comparison to remotely located normal lung parenchyma, B, E, R, T mRNA expression was generally increased in matched tumors, as well as in the entire tumor series. Therefore, tumors were classified as expressing normal or aberrant B, E, R, T mRNA. In general, no marker was associated with overall and progression free survival (OS, PFS. Upon multivariate analysis, aberrant intratumoral TYMS predicted for shorter PFS than normal TYMS in 1st line chemo-naïve treated patients (p = 0.012. In the same setting, specific interactions were observed for aberrant TYMS with Plat and Tax/Plat (p = 0.003 and p = 0.006, respectively. Corresponding patients had longer PFS in comparison to those treated with Tax (Plat: HR = 0.234, 95% CI:0.108-0.506, Wald’s p  Conclusion Classifying intratumoral B, E, R, T mRNA expression in comparison to normal lung may facilitate standardization of these parameters for prospective studies. With this approach, NSCLC

  18. Identification of the glutamine synthetase adenylyltransferase of Azospirillum brasilense.

    Science.gov (United States)

    Van Dommelen, Anne; Spaepen, Stijn; Vanderleyden, Jozef

    2009-04-01

    Glutamine synthetase, a key enzyme in nitrogen metabolism of both prokaryotes and eukaryotes, is strictly regulated. One means of regulation is the modulation of activity through adenylylation catalyzed by adenylyltransferases. Using PCR primers based on conserved sequences in glutamine synthetase adenylyltransferases, we amplified part of the glnE gene of Azospirillum brasilense Sp7. The complete glnE sequence of A. brasilense Sp245 was retrieved from the draft genome sequence of this organism (http://genomics.ornl.gov/research/azo/). Adenylyltransferase is a bifunctional enzyme consisting of an N-terminal domain responsible for deadenylylation activity and a C-terminal domain responsible for adenylylation activity. Both domains are partially homologous to each other. Residues important for catalytic activity were present in the deduced amino acid sequence of the A. brasilense Sp245 glnE sequence. A glnE mutant was constructed in A. brasilense Sp7 by inserting a kanamycin resistance cassette between the two active domains of the enzyme. The resulting mutant was unable to adenylylate the glutamine synthetase enzyme and was impaired in growth when shifted from nitrogen-poor to nitrogen-rich medium.

  19. Cytosolic glutamine synthetase in barley

    DEFF Research Database (Denmark)

    Thomsen, Hanne Cecilie

    Improving crop nitrogen (N) utilization efficiency (NUE) is of major importance in modern agriculture in order to reduce the amount of N fertilizer used for crop production. There is a high demand for development of crops which are able to produce high yields but with a concomitantly lower N...... fertilizer requirement. The enzyme glutamine synthetase (GS) has been a major topic in plant nitrogen research for decades due to its central role in plant N metabolism. The cytosolic version of this enzyme (GS1) plays an important role in relation to primary N assimilation as well as in relation to N...... and wildtype control. However, when grown to maturity the differences between transgenic lines and wildtype were highly dependent on the growth conditions applied. The transgenic lines had a higher N utilization efficiency (NUtE) than wildtype control, but only when exposed to a mild N stress following...

  20. Structure of the prolyl-tRNA synthetase from the eukaryotic pathogen Giardia lamblia

    Energy Technology Data Exchange (ETDEWEB)

    Larson, Eric T.; Kim, Jessica E.; Napuli, Alberto J.; Verlinde, Christophe L. M. J.; Fan, Erkang; Zucker, Frank H.; Van Voorhis, Wesley C.; Buckner, Frederick S.; Hol, Wim G. J.; Merritt, Ethan A., E-mail: merritt@u.washington.edu [Medical Structural Genomics of Pathogenic Protozoa, (United States); University of Washington, Seattle, WA 98195 (United States)

    2012-09-01

    The structure of Giardia prolyl-tRNA synthetase cocrystallized with proline and ATP shows evidence for half-of-the-sites activity, leading to a corresponding mixture of reaction substrates and product (prolyl-AMP) in the two active sites of the dimer. The genome of the human intestinal parasite Giardia lamblia contains only a single aminoacyl-tRNA synthetase gene for each amino acid. The Giardia prolyl-tRNA synthetase gene product was originally misidentified as a dual-specificity Pro/Cys enzyme, in part owing to its unexpectedly high off-target activation of cysteine, but is now believed to be a normal representative of the class of archaeal/eukaryotic prolyl-tRNA synthetases. The 2.2 Å resolution crystal structure of the G. lamblia enzyme presented here is thus the first structure determination of a prolyl-tRNA synthetase from a eukaryote. The relative occupancies of substrate (proline) and product (prolyl-AMP) in the active site are consistent with half-of-the-sites reactivity, as is the observed biphasic thermal denaturation curve for the protein in the presence of proline and MgATP. However, no corresponding induced asymmetry is evident in the structure of the protein. No thermal stabilization is observed in the presence of cysteine and ATP. The implied low affinity for the off-target activation product cysteinyl-AMP suggests that translational fidelity in Giardia is aided by the rapid release of misactivated cysteine.

  1. Evolutionary relationships of the carbamoylphosphate synthetase genes

    NARCIS (Netherlands)

    vandenHoff, MJB; Jonker, A; Beintema, JJ; Lamers, WH

    1995-01-01

    Carbamoylphosphate is a common intermediate in the metabolic pathways leading to the biosynthesis of arginine and pyrimidines, The amino acid sequences of all available proteins that catalyze the formation of carbamoylphosphate were retrieved from Genbank and aligned to estimate their mutual phyloge

  2. EFFECT OF UP-REGULATION OF S-ADOMET SYNTHETASE ON TAXOL-INDUCED APOPTOSIS IN HUMAN BREAST CANCER CELLS

    Institute of Scientific and Technical Information of China (English)

    Chen Lirong; Zheng Shu; Fan Weimin; Zhang Suzhan

    1998-01-01

    Objective:To investigate the gene regulation of taxolinduced apoptosis. Methods: Northern blot hybridization,enzyme activity assay of S-AdoMet synthetase and flow cytometry were performed in the investigation of expression in the Mrna level and biological action of SAdoMet synthetase in taxol-induced apoptosis in human breast cancer cell line (Bcap 37). Results: Up-regulation of S-AdoMet synthetase expression was resulted by taxol treatment and the expression peaked at 48hours. Moreover,the up-regulation of S-AdoMet synthetase was associated with cytotoxicity of antimicrotubule agents including taxol and colchicine.Inhibition rate of S-AdoMet synthetase activity by 1%DMSO was 34% in taxol-treated cells and 14% in taxoluntreated cells compared to control groups, respectively.Posttreatment with 1% DMSO following pretreatment with individual antitumor agent for 3 hrs promoted apoptotic cell death of taxol-,colchicine-,and adriamycintreated Bcap37 cells. Conclusion : The induction of apoptosis enhanced by post-treatment with DMSO in taxol-treated cells is probably linked to its inhibition on enzyme activity of S-AdoMet synthetase ,suggesting that the increased expression of S-AdoMet synthetase possibly plays an important role in protecting cells from DNA fragmentation in taxol-induced apoptosis.

  3. Genetics Home Reference: glutathione synthetase deficiency

    Science.gov (United States)

    ... elevated acidity in the blood and tissues (metabolic acidosis). In addition to the features present in moderate ... Kaabachi N, Hachicha M. Hemolytic anemia and metabolic acidosis: think about glutathione synthetase deficiency. Fetal Pediatr Pathol. ...

  4. Purification and properties of phosphoribosyl-diphosphate synthetase from Bacillus subtilis

    DEFF Research Database (Denmark)

    Arnvig, Kirsten; Hove-Jensen, Bjarne; Switzer, Robert L.

    1990-01-01

    Phosphoribosyl-diphosphate (PPRibP) synthetase from Bacillus subtiliis has been purified to near homogeneity from an Escherichia coli Δprs strain bearing the cloned B. subtilis prs gene, encoding PPRibP synthentase, on a plasmid. The Mr of the subunit (34,000) and its amino-terminal amino acid...

  5. Tandem heterocyclization domains in a nonribosomal peptide synthetase essential for siderophore biosynthesis in Vibrio anguillarum

    NARCIS (Netherlands)

    Di Lorenzo, M.; Stork, M.; Naka, H.; Tolmasky, M.E.; Crosa, J.H.

    2008-01-01

    Anguibactin, the siderophore produced by Vibrio anguillarum 775, is synthesized via a nonribosomal peptide synthetase (NRPS) mechanism. Most of the genes required for anguibactin biosynthesis are harbored by the pJM1 plasmid. Complete sequencing of this plasmid identified an orf encoding a 108 kDa p

  6. A cDNA clone from Zea mays endosperm sucrose synthetase mRNA.

    OpenAIRE

    Geiser, M.; Döring, H P; Wöstemeyer, J; Behrens, U.; Tillmann, E; Starlinger, P.

    1980-01-01

    A cDNA clone for maize endosperm sucrose synthetase of 62o nucleotide pairs length was obtained by cloning double stranded DNA obtained from the total maize endosperm poly(A) RNA in pBR322, and identifying the appropriate clone by hybrid-promoter translation. In Southern blotting to genomic BamHI-digested DNA, a single band only of approximately 20 Kb lights up, indicating that the sucrose synthetase gene is unique, or that closely linked copies are located on this DNA fragment.

  7. Nostophycin Biosynthesis Is Directed by a Hybrid Polyketide Synthase-Nonribosomal Peptide Synthetase in the Toxic Cyanobacterium Nostoc sp. Strain 152▿†

    OpenAIRE

    Fewer, David P.; Österholm, Julia; Rouhiainen, Leo; Jokela, Jouni; Wahlsten, Matti; Sivonen, Kaarina

    2011-01-01

    Cyanobacteria are a rich source of natural products with interesting pharmaceutical properties. Here, we report the identification, sequencing, annotation, and biochemical analysis of the nostophycin (npn) biosynthetic gene cluster. The npn gene cluster spans 45.1 kb and consists of three open reading frames encoding a polyketide synthase, a mixed polyketide nonribosomal peptide synthetase, and a nonribosomal peptide synthetase. The genetic architecture and catalytic domain organization of th...

  8. [Studies on regulation of glutamine synthetase activity from Streptomyces lincolnensis].

    Science.gov (United States)

    Jin, Z; Jiao, R; Mao, Y

    2001-08-01

    Glutamine synthetase in crude extracts from Streptomyces lincolnensis growing under different nitrogen sources were studied. The results showed that NH4+ in high concentration repressed the biosynthesis of the enzyme. To determine whether Streptomyces lincolnensis has undergone covalent modification, a comparison of the glutamine synthetase isolated from cells grown on different nitrogen sources was made. No significant difference was observed in specific activity, pH optima, divalent cation response, and ultraviolet absorption spectra. Glutamine synthetase activity was not influenced by ammonia shock or snake venom phosphodiesterase treatment. Under these conditions, the activity of glutamine synthetase from K. aerogenes was markedly changed. There was therefore no evidence for enzymatic adenylylation of glutamine synthetase from Streptomyces lincolnensis. Glutamine synthetase was subject to feedback inhibition by end products of glutamine metabolism. Cumulative feedback inhibition of the Mn(2+)-dependent glutamine synthetase activity was demonstrated. These results suggest that glutamine synthetase from Streptomyces lincolnensis is an allosteric enzyme. PMID:12552916

  9. Response of transgenic poplar overexpressing cytosolic glutamine synthetase to phosphinothricin.

    Science.gov (United States)

    Pascual, María Belén; Jing, Zhong Ping; Kirby, Edward G; Cánovas, Francisco M; Gallardo, Fernando

    2008-01-01

    Glutamine synthetase (GS) is the main enzyme involved in ammonia assimilation in plants and is the target of phosphinothricin (PPT), an herbicide commonly used for weed control in agriculture. As a result of the inhibition of GS, PPT also blocks photorespiration, resulting in the depletion of leaf amino acid pools leading to the plant death. Hybrid transgenic poplar (Populus tremula x P. alba INRA clone 7171-B4) overexpressing cytosolic GS is characterized by enhanced vegetative growth [Gallardo, F., Fu, J., Cantón, F.R., García-Gutiérrez, A., Cánovas, F.M., Kirby, E.G., 1999. Expression of a conifer glutamine synthetase gene in transgenic poplar. Planta 210, 19-26; Fu, J., Sampalo, R., Gallardo, F., Cánovas, F.M., Kirby, E.G., 2003. Assembly of a cytosolic pine glutamine synthetase holoenzyme in leaves of transgenic poplar leads to enhanced vegetative growth in young plants. Plant Cell Environ. 26, 411-418; Jing, Z.P., Gallardo, F., Pascual, M.B., Sampalo, R., Romero, J., Torres de Navarra, A., Cánovas, F.M., 2004. Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase. New Phytol. 164, 137-145], increased photosynthetic and photorespiratory capacities [El-Khatib, R.T., Hamerlynck, E.P., Gallardo, F., Kirby, E.G., 2004. Transgenic poplar characterized by ectopic expression of a pine cytosolic glutamine synthetase gene exhibits enhanced tolerance to water stress. Tree Physiol. 24, 729-736], enhanced tolerance to water stress (El-Khatib et al., 2004), and enhanced nitrogen use efficiency [Man, H.-M., Boriel, R., El-Khatib, R.T., Kirby, E.G., 2005. Characterization of transgenic poplar with ectopic expression of pine cytosolic glutamine synthetase under conditions of varying nitrogen availability. New Phytol. 167, 31-39]. In vitro plantlets of GS transgenic poplar exhibited enhanced resistance to PPT when compared with non-transgenic controls. After 30 days exposure to PPT at an equivalent dose of 275 g ha(-1), growth

  10. Substrate specificity of hybrid modules from peptide synthetases

    NARCIS (Netherlands)

    Elsner, A; Engert, H; Saenger, W; Hamoen, L; Venema, G; Bernhard, F

    1997-01-01

    Homologous modules from two different peptide synthetases were analyzed for functionally equivalent regions. Hybrids between the coding regions of the phenylalanine-activating module of tyrocidine synthetase and the valine activating module of surfactin synthetase were constructed by combining the t

  11. Glutamine versus ammonia utilization in the NAD synthetase family.

    Directory of Open Access Journals (Sweden)

    Jessica De Ingeniis

    Full Text Available NAD is a ubiquitous and essential metabolic redox cofactor which also functions as a substrate in certain regulatory pathways. The last step of NAD synthesis is the ATP-dependent amidation of deamido-NAD by NAD synthetase (NADS. Members of the NADS family are present in nearly all species across the three kingdoms of Life. In eukaryotic NADS, the core synthetase domain is fused with a nitrilase-like glutaminase domain supplying ammonia for the reaction. This two-domain NADS arrangement enabling the utilization of glutamine as nitrogen donor is also present in various bacterial lineages. However, many other bacterial members of NADS family do not contain a glutaminase domain, and they can utilize only ammonia (but not glutamine in vitro. A single-domain NADS is also characteristic for nearly all Archaea, and its dependence on ammonia was demonstrated here for the representative enzyme from Methanocaldococcus jannaschi. However, a question about the actual in vivo nitrogen donor for single-domain members of the NADS family remained open: Is it glutamine hydrolyzed by a committed (but yet unknown glutaminase subunit, as in most ATP-dependent amidotransferases, or free ammonia as in glutamine synthetase? Here we addressed this dilemma by combining evolutionary analysis of the NADS family with experimental characterization of two representative bacterial systems: a two-subunit NADS from Thermus thermophilus and a single-domain NADS from Salmonella typhimurium providing evidence that ammonia (and not glutamine is the physiological substrate of a typical single-domain NADS. The latter represents the most likely ancestral form of NADS. The ability to utilize glutamine appears to have evolved via recruitment of a glutaminase subunit followed by domain fusion in an early branch of Bacteria. Further evolution of the NADS family included lineage-specific loss of one of the two alternative forms and horizontal gene transfer events. Lastly, we identified NADS

  12. Molecular analysis of intragenic recombination at the tryptophan synthetase locus in Neurospora crassa

    Indian Academy of Sciences (India)

    A. Wiest; D. Barchers; M. Eaton; R. Henderson; R. Schnittker; K. Mccluskey

    2013-12-01

    Fifteen different classically generated and mapped mutations at the tryptophan synthetase locus in Neurospora crassa have been characterized to the level of the primary sequence of the gene. This sequence analysis has demonstrated that intragenic recombination is accurate to order mutations within one open reading frame. While classic genetic analysis correctly ordered the mutations, the position of mutations characterized by gene sequence analysis was more accurate. A leaky mutation was found to have a wild-type primary sequence. The presence of unique polymorphisms in the primary sequence of the trp-3 gene from strain 861 confirms that it has a unique history relative to the other strains studied. Most strains that were previously shown to be immunologically nonreactive with antibody preparations raised against tryptophan synthetase protein were shown to have nonsense mutations. This work defines 14 alleles of the N. crassa trp-3 gene.

  13. Transformation of Bacillus Subtilis with cloned thymidylate synthetases

    Energy Technology Data Exchange (ETDEWEB)

    Rubin, Edward M.

    1980-01-01

    Bacillus subtilis carries two genes, thyA and thyB, each encoding different protein products, with thymidylate synthetase (TSase) activity. Either of these genes alone is sufficient for thymidine independence in B. subtilis. In addition there exist two B. subtilis temperate bacteriophages which upon infection of thymine requiring auxotrophs results in conversion of the organism to thymine independence. Chimeric plasmids selected for Thy/sup +/ transforming activity in E. coli were constructed and then used as a source of defined highly enriched DNA with which to transform competent B. subtilis. These plasmids were studied for their: (1) abiility to transform B. subtilis to thymine independence; (2) site of integration within the B. subtilis chromosome upon transformation; (3) phenotype of Thy/sup +/ plasmid generated transformants; and (4) nucleotide sequence homology among the cloned DNA fragments conferring thymine independence. Plasmids containing the two bacteriophage thy genes displayed the phenotype associated with thyA, whereas the plasmids containing the cloned B. subtilis chromosomal genes displayed the phenotype associated with thyB. Utilizing similar technology, the ability of an entirely foreign hybred bacterial plasmiid to transform B. subtilis was examined. In this case the gene from E. coli encoding thymidylate synthetase was cloned in the plasmid pBR322. The resulting chimeric plasmid was effective in transforming both E. coli and B. subtilis to thymine prototrophy. Uncloned linear E. coli chromosomal DNA was unable to transform thymine requiring strains of B. subtilis to thymine independence. Although the Thy/sup +/ transformants of E. coli contained plasmid DNA, the Thy/sup +/ transformants derived from the transformation of B. subtilis did not contain detectable extrachromosomal DNA. Instead the DNA from the chimeric plasmid was integrated into the chromosome of B. subtilis. (ERB)

  14. Biosynthesis of Polymyxins B, E, and P Using Genetically Engineered Polymyxin Synthetases in the Surrogate Host Bacillus subtilis.

    Science.gov (United States)

    Kim, Se-Yu; Park, Soo-Young; Choi, Soo-Keun; Park, Seung-Hwan

    2015-07-01

    The development of diverse polymyxin derivatives is needed to solve the toxicity and resistance problems of polymyxins. However, no platform has generated polymyxin derivatives by genetically engineering a polymyxin synthetase, which is a nonribosomal peptide synthetase. In this study, we present a two-step approach for the construction of engineered polymyxin synthetases by substituting the adenylation (A) domains of polymyxin A synthetase, which is encoded by the pmxABCDE gene cluster of Paenibacillus polymyxa E681. First, the seventh L-threonine-specific A-domain region in pmxA was substituted with the Lleucine- specific A-domain region obtained from P. polymyxa ATCC21830 to make polymyxin E synthetase, and then the sixth D-leucine-specific A-domain region (A6-D-Leu-domain) was substituted with the D-phenylalanine-specific A-domain region (A6-D-Phe-domain) obtained from P. polymyxa F4 to make polymyxin B synthetase. This step was performed in Escherichia coli on a pmxA-containing fosmid, using the lambda Red recombination system and the sacB gene as a counter-selectable marker. Next, the modified pmxA gene was fused to pmxBCDE on the chromosome of Bacillus subtilis BSK4dA, and the resulting recombinant strains BSK4-PB and BSK4-PE were confirmed to produce polymyxins B and E, respectively. We also succeeded in constructing the B. subtilis BSK4-PP strain, which produces polymyxin P, by singly substituting the A6-D-Leu-domain with the A6-D-Phe-domain. This is the first report in which polymyxin derivatives were generated by genetically engineering polymyxin synthetases. The two recombinant B. subtilis strains will be useful for improving the commercial production of polymyxins B and E, and they will facilitate the generation of novel polymyxin derivatives. PMID:26059516

  15. Phosphoribosyl pyrophosphate synthetase activity affects growth and riboflavin production in Ashbya gossypii

    Directory of Open Access Journals (Sweden)

    Revuelta José L

    2008-09-01

    Full Text Available Abstract Background Phosphoribosyl pyrophosphate (PRPP is a central compound for cellular metabolism and may be considered as a link between carbon and nitrogen metabolism. PRPP is directly involved in the de novo and salvage biosynthesis of GTP, which is the immediate precursor of riboflavin. The industrial production of this vitamin using the fungus Ashbya gossypii is an important biotechnological process that is strongly influenced by substrate availability. Results Here we describe the characterization and manipulation of two genes of A. gossypii encoding PRPP synthetase (AGR371C and AGL080C. We show that the AGR371C and AGL080C gene products participate in PRPP synthesis and exhibit inhibition by ADP. We also observed a major contribution of AGL080C to total PRPP synthetase activity, which was confirmed by an evident growth defect of the Δagl080c strain. Moreover, we report the overexpression of wild-type and mutant deregulated isoforms of Agr371cp and Agl080cp that significantly enhanced the production of riboflavin in the engineered A. gossypii strains. Conclusion It is shown that alterations in PRPP synthetase activity have pleiotropic effects on the fungal growth pattern and that an increase in PRPP synthetase enzymatic activity can be used to enhance riboflavin production in A. gossypii.

  16. Heterologous expression in Escherichia coli of the first module of the nonribosomal peptide synthetase for chloroeremomycin, a vancomycin-type glycopeptide antibiotic

    OpenAIRE

    Trauger, John W.; Walsh, Christopher T.

    2000-01-01

    The gene cluster from Amycolotopsis orientalis responsible for biosynthesis of the vancomycin-type glycopeptide antibiotic chloroeremomycin was recently sequenced, indicating that this antibiotic derives from a seven-residue peptide synthesized by a three-subunit (CepA, CepB, and CepC) modular nonribosomal peptide synthetase. Expression of all or parts of the peptide synthetase in Escherichia coli would facilitate biochemical characterization of its substrate specificity, an important step to...

  17. Glutamine synthetase sequence evolution in the mycobacteria and their use as molecular markers for Actinobacteria speciation

    Directory of Open Access Journals (Sweden)

    Wiid Ian JF

    2009-02-01

    Full Text Available Abstract Background Although the gene encoding for glutamine synthetase (glnA is essential in several organisms, multiple glnA copies have been identified in bacterial genomes such as those of the phylum Actinobacteria, notably the mycobacterial species. Intriguingly, previous reports have shown that only one copy (glnA1 is essential for growth in M. tuberculosis, while the other copies (glnA2, glnA3 and glnA4 are not. Results In this report it is shown that the glnA1 and glnA2 encoded glutamine synthetase sequences were inherited from an Actinobacteria ancestor, while the glnA4 and glnA3 encoded GS sequences were sequentially acquired during Actinobacteria speciation. The glutamine synthetase sequences encoded by glnA4 and glnA3 are undergoing reductive evolution in the mycobacteria, whilst those encoded by glnA1 and glnA2 are more conserved. Conclusion Different selective pressures by the ecological niche that the organisms occupy may influence the sequence evolution of glnA1 and glnA2 and thereby affecting phylogenies based on the protein sequences they encode. The findings in this report may impact the use of similar sequences as molecular markers, as well as shed some light on the evolution of glutamine synthetase in the mycobacteria.

  18. Neural control of glutamine synthetase activity in rat skeletal muscles.

    Science.gov (United States)

    Feng, B; Konagaya, M; Konagaya, Y; Thomas, J W; Banner, C; Mill, J; Max, S R

    1990-05-01

    The mechanism of glutamine synthetase induction in rat skeletal muscle after denervation or limb immobilization was investigated. Adult male rats were subjected to midthigh section of the sciatic nerve. At 1, 2, and 5 h and 1, 2, and 7 days after denervation, rats were killed and denervated, and contralateral control soleus and plantaris muscles were excised, weighted, homogenized, and assayed for glutamine synthetase. Glutamine synthetase activity increased approximately twofold 1 h after denervation in both muscles. By 7 days postdenervation enzyme activity had increased to three times the control level in plantaris muscle and to four times the control level in soleus muscle. Increased enzyme activity after nerve section was associated with increased maximum velocity with no change in apparent Michaelis constant. Immunotitration with an antiglutamine synthetase antibody suggested that denervation caused an increase in the number of glutamine synthetase molecules in muscle. However, Northern-blot analysis revealed no increase in the steady-state level of glutamine synthetase mRNA after denervation. A mixing experiment failed to yield evidence for the presence of a soluble factor involved in regulating the activity of glutamine synthetase in denervated muscle. A combination of denervation and dexamethasone injections resulted in additive increases in glutamine synthetase. Thus the mechanism underlying increased glutamine synthetase after denervation appears to be posttranscriptional and is distinct from that of the glucocorticoid-mediated glutamine synthetase induction previously described by us. PMID:1970709

  19. Targeted Disruption of Nonribosomal Peptide Synthetase pes3 Augments the Virulence of Aspergillus fumigatus

    DEFF Research Database (Denmark)

    O'Hanlon, Karen A.; Cairns, Timothy; Stack, Deirdre;

    2011-01-01

    and ferricrocin. No structural or immunologically relevant NRP products have been identified in the organism. We investigated the function of the largest gene in A. fumigatus, which encodes the NRP synthetase Pes3 (AFUA_5G12730), by targeted gene deletion and extensive phenotypic analysis. It was observed...... that in contrast to other NRP synthetases, deletion of pes3 significantly increases the virulence of A. fumigatus, whereby the pes3 deletion strain (A. fumigatus Δpes3) exhibited heightened virulence (increased killing) in invertebrate (P ... of murine pulmonary aspergillosis. Complementation restored the wild-type phenotype in the invertebrate model. Deletion of pes3 also resulted in increased susceptibility to the antifungal, voriconazole (P

  20. Aromatase inhibitors and anti-synthetase syndrome.

    Science.gov (United States)

    Mascella, Fabio; Gianni, Lorenzo; Affatato, Alessandra; Fantini, Manuela

    2016-09-01

    Adjuvant therapy in postmenopausal women with endocrine-responsive breast cancer (BC) is actually centered on the use of anti-aromatase inhibitors (AI). Several reports, however, are emerging in literature associating the use of this drugs to rheumatic disorders. This case report describes the first case of anti-synthetase syndrome diagnosis after treatment with anti-estrogen agents in a patient with pre-existing rheumatoid arthritis. PMID:27225465

  1. Targeted Disruption of Nonribosomal Peptide Synthetase pes3 Augments the Virulence of Aspergillus fumigatus

    OpenAIRE

    O'Hanlon, Karen; Cairns, Timothy; Stack, Deirdre; Schrettl, Markus; Bignell, Elaine; Kavanagh, Kevin; Miggin, Sinead; O'Keeffe, Grainne; Larsen, Thomas; Doyle, Sean

    2011-01-01

    Nonribosomal peptide synthesis (NRPS) is a documented virulence factor for the opportunistic pathogen Aspergillus fumigatus and other fungi. Secreted or intracellularly located NRP products include the toxic molecule gliotoxin and the iron-chelating siderophores triacetylfusarinine C and ferricrocin. No structural or immunologically relevant NRP products have been identified in the organism. We investigated the function of the largest gene in A. fumigatus, which encodes the NRP synthetase Pes...

  2. Genetic Validation of Aminoacyl-tRNA Synthetases as Drug Targets in Trypanosoma brucei

    OpenAIRE

    Kalidas, Savitha; Cestari, Igor; Monnerat, Severine; Li, Qiong; Regmi, Sandesh; Hasle, Nicholas; Labaied, Mehdi; Parsons, Marilyn; Stuart, Kenneth; Phillips, Margaret A.

    2014-01-01

    Human African trypanosomiasis (HAT) is an important public health threat in sub-Saharan Africa. Current drugs are unsatisfactory, and new drugs are being sought. Few validated enzyme targets are available to support drug discovery efforts, so our goal was to obtain essentiality data on genes with proven utility as drug targets. Aminoacyl-tRNA synthetases (aaRSs) are known drug targets for bacterial and fungal pathogens and are required for protein synthesis. Here we survey the essentiality of...

  3. Leucyl-tRNA synthetase from the ancestral bacterium Aquifex aeolicus contains relics of synthetase evolution

    OpenAIRE

    Zhao, Ming-Wei; Zhu, Bin; Hao, Rui; Xu, Min-Gang; Eriani, Gilbert; Wang, En-Duo

    2005-01-01

    The editing reactions catalyzed by aminoacyl-tRNA synthetases are critical for the faithful protein synthesis by correcting misactivated amino acids and misaminoacylated tRNAs. We report that the isolated editing domain of leucyl-tRNA synthetase from the deep-rooted bacterium Aquifex aeolicus (αβ-LeuRS) catalyzes the hydrolytic editing of both mischarged tRNALeu and minihelixLeu. Within the domain, we have identified a crucial 20-amino-acid peptide that confers editing capacity when transplan...

  4. Reassimilation of Photorespiratory Ammonium in Lotus japonicus Plants Deficient in Plastidic Glutamine Synthetase.

    Science.gov (United States)

    Pérez-Delgado, Carmen M; García-Calderón, Margarita; Márquez, Antonio J; Betti, Marco

    2015-01-01

    It is well established that the plastidic isoform of glutamine synthetase (GS2) is the enzyme in charge of photorespiratory ammonium reassimilation in plants. The metabolic events associated to photorespiratory NH4(+) accumulation were analyzed in a Lotus japonicus photorespiratory mutant lacking GS2. The mutant plants accumulated high levels of NH4(+) when photorespiration was active, followed by a sudden drop in the levels of this compound. In this paper it was examined the possible existence of enzymatic pathways alternative to GS2 that could account for this decline in the photorespiratory ammonium. Induction of genes encoding for cytosolic glutamine synthetase (GS1), glutamate dehydrogenase (GDH) and asparagine synthetase (ASN) was observed in the mutant in correspondence with the diminishment of NH4(+). Measurements of gene expression, polypeptide levels, enzyme activity and metabolite levels were carried out in leaf samples from WT and mutant plants after different periods of time under active photorespiratory conditions. In the case of asparagine synthetase it was not possible to determine enzyme activity and polypeptide content; however, an increased asparagine content in parallel with the induction of ASN gene expression was detected in the mutant plants. This increase in asparagine levels took place concomitantly with an increase in glutamine due to the induction of cytosolic GS1 in the mutant, thus revealing a major role of cytosolic GS1 in the reassimilation and detoxification of photorespiratory NH4(+) when the plastidic GS2 isoform is lacking. Moreover, a diminishment in glutamate levels was observed, that may be explained by the induction of NAD(H)-dependent GDH activity.

  5. The aminoacyl-tRNA synthetases of Drosophila melanogaster.

    Science.gov (United States)

    Lu, Jiongming; Marygold, Steven J; Gharib, Walid H; Suter, Beat

    2015-01-01

    Aminoacyl-tRNA synthetases (aaRSs) ligate amino acids to their cognate tRNAs, allowing them to decode the triplet code during translation. Through different mechanisms aaRSs also perform several non-canonical functions in transcription, translation, apoptosis, angiogenesis and inflammation. Drosophila has become a preferred system to model human diseases caused by mutations in aaRS genes, to dissect effects of reduced translation or non-canonical activities, and to study aminoacylation and translational fidelity. However, the lack of a systematic annotation of this gene family has hampered such studies. Here, we report the identification of the entire set of aaRS genes in the fly genome and we predict their roles based on experimental evidence and/or orthology. Further, we propose a new, systematic and logical nomenclature for aaRSs. We also review the research conducted on Drosophila aaRSs to date. Together, our work provides the foundation for further research in the fly aaRS field. PMID:26761199

  6. let-65 is cytoplasmic methionyl tRNA synthetase in C. elegans

    Directory of Open Access Journals (Sweden)

    Maha Z. Alriyami

    2014-12-01

    Full Text Available Cytoplasmic methionyl tRNA synthetase (MetRS is one of more than 20 cytoplasmic aminoacyl tRNA synthetase enzymes (ARS. This family of enzymes catalyzes a process fundamental for protein translation. Using a combination of genetic mapping, oligonucleotide array comparative genomic hybridization, and phenotypic correlation, we show that mutations in the essential gene, let-65, reside within the predicted Caenorhabditis elegans homologue of MetRS, which we have named mars-1. We demonstrate that the lethality associated with alleles of let-65 is fully rescued by a transgenic array that spans the mars-1 genomic region. Furthermore, sequence analysis reveals that six let-65 alleles lead to the alteration of highly conserved amino acids.

  7. Characterization of inhibitors acting at the synthetase site of Escherichia coli asparagine synthetase B.

    Science.gov (United States)

    Boehlein, S K; Nakatsu, T; Hiratake, J; Thirumoorthy, R; Stewart, J D; Richards, N G; Schuster, S M

    2001-09-18

    Asparagine synthetase catalyzes the ATP-dependent formation of L-asparagine from L-aspartate and L-glutamine, via a beta-aspartyl-AMP intermediate. Since interfering with this enzyme activity might be useful for treating leukemia and solid tumors, we have sought small-molecule inhibitors of Escherichia coli asparagine synthetase B (AS-B) as a model system for the human enzyme. Prior work showed that L-cysteine sulfinic acid competitively inhibits this enzyme by interfering with L-aspartate binding. Here, we demonstrate that cysteine sulfinic acid is also a partial substrate for E. coli asparagine synthetase, acting as a nucleophile to form the sulfur analogue of beta-aspartyl-AMP, which is subsequently hydrolyzed back to cysteine sulfinic acid and AMP in a futile cycle. While cysteine sulfinic acid did not itself constitute a clinically useful inhibitor of asparagine synthetase B, these results suggested that replacing this linkage by a more stable analogue might lead to a more potent inhibitor. A sulfoximine reported recently by Koizumi et al. as a competitive inhibitor of the ammonia-dependent E. coli asparagine synthetase A (AS-A) [Koizumi, M., Hiratake, J., Nakatsu, T., Kato, H., and Oda, J. (1999) J. Am. Chem. Soc. 121, 5799-5800] can be regarded as such a species. We found that this sulfoximine also inhibited AS-B, effectively irreversibly. Unlike either the cysteine sulfinic acid interaction with AS-B or the sulfoximine interaction with AS-A, only AS-B productively engaged in asparagine synthesis could be inactivated by the sulfoximine; free enzyme was unaffected even after extended incubation with the sulfoximine. Taken together, these results support the notion that sulfur-containing analogues of aspartate can serve as platforms for developing useful inhibitors of AS-B. PMID:11551215

  8. Retinal Vasculitis in Anti-Synthetase Syndrome.

    Science.gov (United States)

    Donovan, Christopher P; Pecen, Paula E; Baynes, Kimberly; Ehlers, Justis P; Srivastava, Sunil K

    2016-09-01

    A 31-year-old woman with a history of anti-synthetase syndrome-related myositis and interstitial lung disease presented with acute-onset blurry vision and rash on her hands and feet. Visual acuity was hand motion in her right eye and 20/40 in her left eye. Dilated fundus exam showed extensive retinal vasculitis, diffuse intraretinal hemorrhages, and subretinal fluid. Optical coherence tomography revealed significant macular thickening, and fluorescein angiography revealed vascular leakage with peripheral nonperfusion. Aggressive systemic immunosuppression was initiated, with gradual resolution of her disease during 8 months of follow-up. [Ophthalmic Surg Lasers Imaging Retina. 2016;47:874-879.].

  9. Dissecting and Exploiting Nonribosomal Peptide Synthetases

    Institute of Scientific and Technical Information of China (English)

    Qing-Tao SHEN; Xiu-Lan CHEN; Cai-Yun SUN; Yu-Zhong ZHANG

    2004-01-01

    A large number of therapeutically useful cyclic and linear peptides of bacteria or fungal origin are synthesized via a template-directed, nucleic-acid-independent nonribosomal mechanism. This process is carried out by mega-enzymes called nonribosomal peptide synthetases (NRPSs). NRPSs contain repeated coordinated groups of active sites called modules, and each module is composed of several domains with different catalytic activities. The familiarity to these domains lays base for the future genetic engineering of NRPSs to generate entirely "unnature" Products. The details about NRPSs domain structures and the exploitation of NRPSs are described in this review.

  10. Characterization of cereulide synthetase, a toxin-producing macromolecular machine.

    Directory of Open Access Journals (Sweden)

    Diego A Alonzo

    Full Text Available Cereulide synthetase is a two-protein nonribosomal peptide synthetase system that produces a potent emetic toxin in virulent strains of Bacillus cereus. The toxin cereulide is a depsipeptide, as it consists of alternating aminoacyl and hydroxyacyl residues. The hydroxyacyl residues are derived from keto acid substrates, which cereulide synthetase selects and stereospecifically reduces with imbedded ketoreductase domains before incorporating them into the growing depsipeptide chain. We present an in vitro biochemical characterization of cereulide synthetase. We investigate the kinetics and side chain specificity of α-keto acid selection, evaluate the requirement of an MbtH-like protein for adenylation domain activity, assay the effectiveness of vinylsulfonamide inhibitors on ester-adding modules, perform NADPH turnover experiments and evaluate in vitro depsipeptide biosynthesis. This work also provides biochemical insight into depsipeptide-synthesizing nonribosomal peptide synthetases responsible for other bioactive molecules such as valinomycin, antimycin and kutzneride.

  11. Loss of (2'-5')oligoadenylate synthetase activity by production of antisense RNA results in lack of protection by interferon from viral infections

    Energy Technology Data Exchange (ETDEWEB)

    De Benedetti, A.; Pytel, B.A.; Baglioni, C.

    1987-02-01

    An expression vector was constructed that carries part of the human BK papovavirus with 0.5 kilobases of (2'-5')oligoadenylate (2-5A) synthetase cDNA inserted in inverted orientation downstream from the virion proteins (VP) promoter and the neomycin-resistance gene neo under the control of a simian virus 40 promoter. Cells transfected with this vector and selected for resistance to the neomycin derivative G418 synthesized RNA complementary to 2-5A synthetase mRNA. These cells lacked 2-5A synthetase activity, and the enzyme was not inducible by interferon. In contrast, 2-5A synthetase was induced in cells transfected with a control vector without the cDNA insert. Such cells were protected by interferon from RNA viruses, whereas cells lacking 2-5A synthetase were not protected from encephalomyocarditis virus, vesicular stomatitis virus, and Sindbis virus but were fully protected from influenza virus. These findings show that a high level of 2-5A synthetase is required for interferon-induced protection from the cytoplasmic RNA viruses tested.

  12. Loss of (2'-5')oligoadenylate synthetase activity by production of antisense RNA results in lack of protection by interferon from viral infections.

    Science.gov (United States)

    De Benedetti, A; Pytel, B A; Baglioni, C

    1987-01-01

    An expression vector was constructed that carries part of the human BK papovavirus with 0.5 kilobases of (2'-5')oligoadenylate (2-5A) synthetase cDNA inserted in inverted orientation downstream from the virion proteins (VP) promoter and the neomycin-resistance gene neo under the control of a simian virus 40 promoter. Cells transfected with this vector and selected for resistance to the neomycin derivative G418 synthesized RNA complementary to 2-5A synthetase mRNA. These cells lacked 2-5A synthetase activity, and the enzyme was not inducible by interferon. In contrast, 2-5A synthetase was induced in cells transfected with a control vector without the cDNA insert. Such cells were protected by interferon from RNA viruses, whereas cells lacking 2-5A synthetase were not protected from encephalomyocarditis virus, vesicular stomatitis virus, and Sindbis virus but were fully protected from influenza virus. These findings show that a high level of 2-5A synthetase is required for interferon-induced protection from the cytoplasmic RNA viruses tested. Images PMID:2433688

  13. Characterization of two members among the five ADP-forming acyl coenzyme A (Acyl-CoA) synthetases reveals the presence of a 2-(Imidazol-4-yl)acetyl-CoA synthetase in Thermococcus kodakarensis.

    Science.gov (United States)

    Awano, Tomotsugu; Wilming, Anja; Tomita, Hiroya; Yokooji, Yuusuke; Fukui, Toshiaki; Imanaka, Tadayuki; Atomi, Haruyuki

    2014-01-01

    The genome of Thermococcus kodakarensis, along with those of most Thermococcus and Pyrococcus species, harbors five paralogous genes encoding putative α subunits of nucleoside diphosphate (NDP)-forming acyl coenzyme A (acyl-CoA) synthetases. The substrate specificities of the protein products for three of these paralogs have been clarified through studies on the individual enzymes from Pyrococcus furiosus and T. kodakarensis. Here we have examined the biochemical properties of the remaining two acyl-CoA synthetase proteins from T. kodakarensis. The TK0944 and TK2127 genes encoding the two α subunits were each coexpressed with the β subunit-encoding TK0943 gene. In both cases, soluble proteins with an α2β2 structure were obtained and their activities toward various acids in the ADP-forming reaction were examined. The purified TK0944/TK0943 protein (ACS IIITk) accommodated a broad range of acids that corresponded to those generated in the oxidative metabolism of Ala, Val, Leu, Ile, Met, Phe, and Cys. In contrast, the TK2127/TK0943 protein exhibited relevant levels of activity only toward 2-(imidazol-4-yl)acetate, a metabolite of His degradation, and was thus designated 2-(imidazol-4-yl)acetyl-CoA synthetase (ICSTk), a novel enzyme. Kinetic analyses were performed on both proteins with their respective substrates. In T. kodakarensis, we found that the addition of histidine to the medium led to increases in intracellular ADP-forming 2-(imidazol-4-yl)acetyl-CoA synthetase activity, and 2-(imidazol-4-yl)acetate was detected in the culture medium, suggesting that ICSTk participates in histidine catabolism. The results presented here, together with those of previous studies, have clarified the substrate specificities of all five known NDP-forming acyl-CoA synthetase proteins in the Thermococcales. PMID:24163338

  14. Structural modeling of tissue-specific mitochondrial alanyl-tRNA synthetase (AARS2 defects predicts differential effects on aminoacylation

    Directory of Open Access Journals (Sweden)

    Liliya eEuro

    2015-02-01

    Full Text Available The accuracy of mitochondrial protein synthesis is dependent on the coordinated action of nuclear-encoded mitochondrial aminoacyl-tRNA synthetases (mtARSs and the mitochondrial DNA-encoded tRNAs. The recent advances in whole-exome sequencing have revealed the importance of the mtARS proteins for mitochondrial pathophysiology since nearly every nuclear gene for mtARS (out of 19 is now recognized as a disease gene for mitochondrial disease. Typically, defects in each mtARS have been identified in one tissue-specific disease, most commonly affecting the brain, or in one syndrome. However, mutations in the AARS2 gene for mitochondrial alanyl-tRNA synthetase (mtAlaRS have been reported both in patients with infantile-onset cardiomyopathy and in patients with childhood to adulthood-onset leukoencephalopathy. We present here an investigation of the effects of the described mutations on the structure of the synthetase, in an effort to understand the tissue-specific outcomes of the different mutations.The mtAlaRS differs from the other mtARSs because in addition to the aminoacylation domain, it has a conserved editing domain for deacylating tRNAs that have been mischarged with incorrect amino acids. We show that the cardiomyopathy phenotype results from a single allele, causing an amino acid change p.R592W in the editing domain of AARS2, whereas the leukodystrophy mutations are located in other domains of the synthetase. Nevertheless, our structural analysis predicts that all mutations reduce the aminoacylation activity of the synthetase, because all mtAlaRS domains contribute to tRNA binding for aminoacylation. According to our model, the cardiomyopathy mutations severely compromise aminoacylation whereas partial activity is retained by the mutation combinations found in the leukodystrophy patients. These predictions provide a hypothesis for the molecular basis of the distinct tissue-specific phenotypic outcomes.

  15. Overexpression of glutamine synthetases confers transgenic rice herbicide resistance

    Institute of Scientific and Technical Information of China (English)

    Sun Hui; Huang Qiman; Su Jin

    2005-01-01

    Glutamine synthetase (GS, E.C.6.3.1.2) is a key enzyme involved in the assimilation of inorganic nitrogen in higher plants and gram-negative microorganisms. GS is the targeting enzyme of a herbicide phosphinothricin (PPT) or Basta. In order to generate PPT-resistant transgenic rice via overexpression of GS, we constructed a plant expression vector p2GS harboring two different isoenzymes GS1 and GS2 cDNAs under the control of constitutive promoters of rice Act1 and maize Ubiquitin(Ubi) genes. The p2GS was introduced into rice genome by Agrobacterium-mediated transformation and confirmed by PCR and Southern blot hybridization. GS-transgene expression was first detected by Northern blot analyses. Results from Basta test indicated that GS-transgenic plants can tolerate as high as 0.3% Basta solution. In addition, our results also demonstrated that GS overexpression conferred transformed rice calli PPT resistance. Thus, GS cassette can serve as a selective marker gene instead of bar cassette for selection of PPT transformants.

  16. (p)ppGpp synthetases regulate the pathogenesis of zoonotic Streptococcus suis.

    Science.gov (United States)

    Zhu, Jiawen; Zhang, Tengfei; Su, Zhipeng; Li, Lu; Wang, Dong; Xiao, Ran; Teng, Muye; Tan, Meifang; Zhou, Rui

    2016-10-01

    (p)ppGpp-mediated stringent response is one of the main adaption mechanism in bacteria, and the ability to adapt to environment is linked to the pathogenesis of bacterial pathogens. In the zoonotic pathogen Streptococcus suis, there are two (p)ppGpp synthetases, RelA and RelQ. To investigate the regulatory functions of (p)ppGpp/(p)ppGpp synthetases on the pathogenesis of S. suis, the phenotypes of the [(p)ppGpp(0)] mutant ΔrelAΔrelQ and its parental strain were compared. Light and electron microscopy observation showed that the mutant strain had a longer chain-length than its parental strain. Disruption of relA and relQ led to decreased adhesive and invasive ability to HEp-2 cells, and increased sensitivity to the blood killing and phagocytosis. Mouse infection experiments showed that the mutant strain was attenuated and easier to be cleaned up in vivo. Quantitative reverse transcription PCR (qRT-PCR) analysis indicated that the expressions of virulence related genes involving in morphology and virulence were down-regulated in the mutant strain. Our study demonstrated that the (p)ppGpp synthetases or (p)ppGpp can regulate the pathogenesis of this important zoonotic pathogen. PMID:27524648

  17. (p)ppGpp synthetases regulate the pathogenesis of zoonotic Streptococcus suis.

    Science.gov (United States)

    Zhu, Jiawen; Zhang, Tengfei; Su, Zhipeng; Li, Lu; Wang, Dong; Xiao, Ran; Teng, Muye; Tan, Meifang; Zhou, Rui

    2016-10-01

    (p)ppGpp-mediated stringent response is one of the main adaption mechanism in bacteria, and the ability to adapt to environment is linked to the pathogenesis of bacterial pathogens. In the zoonotic pathogen Streptococcus suis, there are two (p)ppGpp synthetases, RelA and RelQ. To investigate the regulatory functions of (p)ppGpp/(p)ppGpp synthetases on the pathogenesis of S. suis, the phenotypes of the [(p)ppGpp(0)] mutant ΔrelAΔrelQ and its parental strain were compared. Light and electron microscopy observation showed that the mutant strain had a longer chain-length than its parental strain. Disruption of relA and relQ led to decreased adhesive and invasive ability to HEp-2 cells, and increased sensitivity to the blood killing and phagocytosis. Mouse infection experiments showed that the mutant strain was attenuated and easier to be cleaned up in vivo. Quantitative reverse transcription PCR (qRT-PCR) analysis indicated that the expressions of virulence related genes involving in morphology and virulence were down-regulated in the mutant strain. Our study demonstrated that the (p)ppGpp synthetases or (p)ppGpp can regulate the pathogenesis of this important zoonotic pathogen.

  18. Expression Characteristics and Sequence Variation Analysis of Glutamine Synthetase Gene in Grain of japonica Rice with Transgressive Variation%粳稻超亲变异系籽粒谷氨酰胺合成酶基因表达特性及序列变异分析

    Institute of Scientific and Technical Information of China (English)

    徐振华; 曲莹; 刘海英; 朱立楠; 张忠臣; 金正勋

    2016-01-01

    选用籽粒蛋白质含量有显著差异的亲本和杂种后代超亲变异系,比较分析灌浆过程中籽粒蛋白质积累特性、谷氨酰胺合成酶(GS)活性变化、GS基因 mRNA 表达量变化和基因碱基序列。结果表明,杂交后代通过籽粒蛋白质含量的连续定向选可获得超亲变异系,籽粒蛋白质积累量与基因型紧密相关;灌浆过程中籽粒GS 活性呈单峰曲线变化,籽粒蛋白质含量与籽粒 GS活性密切相关,而且籽粒 GS活性也能产生超亲变异;在灌浆过程中籽粒蛋白质含量不同的亲本及超亲变异系籽粒 GS1.3和GS2基因的 mRNA表达量变化趋势基本一致,即随灌浆进程 mRNA表达量逐渐增加,到抽穗后15~20d表达量最高,随后逐渐下降,呈单峰曲线变化;GS1.3和GS2基因mRNA表达量与籽粒蛋白质含量关系密切,GS基因mRNA 表达量高的基因型籽粒蛋白质含量也高,而且超亲表达;尽管不同品种 GS1.3和GS2基因碱基序列保守性很高,但不同品种水稻 GS1.3和GS2基因的碱基序列和蛋白质氨基酸序列并不完全一致,存在着个别碱基不同的基因多态性,品种间有性杂交后代在基因分离和稳定过程中通过碱基的替换仍然能发生碱基的随机性变化及三联体密码和氨基酸的变化。%The transgressive variants derived from rice varieties with significant difference in grain protein content were used to investigate the expression level and structure of glutamine synthetase gene (GS ) , activity of glutamine synthetase and protein accumulation characteristics during grain filling .The results showed that transgressive variants could be obtained through successive directive selection of grain protein content ,because the grain protein content was closely related to corresponding genotype . During grain filling , the activity of glutamine synthetase followed a single‐peak curve ,highly correlated with grain protein

  19. Mutation in the phosphoribosylpyrophosphate synthetase gene (prs) that results in simultaneous requirements for purine and pyrimidine nucleosides, nicotinamide nucleotide, histidine, and tryptophan in Escherichia coli

    DEFF Research Database (Denmark)

    Hove-Jensen, Bjarne

    1988-01-01

    , histidine, tryptophan, and nicotinamide mononucleotide were all added to the growth medium. Viability of the strain was dependent upon mutations in genes of the nucleoside salvage pathways that improved the utilization of exogenous nucleosides. The properties of the strain are those expected of a PRPP...

  20. Glutamine Synthetase Gene Amplification by 3'RACE and Bioinformatics Analysis%3'RACE法扩增谷氨酰胺合成酶基因及其生物信息学分析

    Institute of Scientific and Technical Information of China (English)

    张志灯; 罗土炎; 饶秋华; 曹治云; 郑腾

    2012-01-01

    以抽提得到的黑曲霉mRNA为模板,根据GenBank上检索的谷氨酰胺合成酶基因mRNA序列,设计特异性引物,进行3 ' RACE PCR扩增,并在NCBI网站进行生物信息学分析.结果扩增得到长约1 kb的DNA片段,测序结果表明,所获得的DNA序列与gene bank上检索到黑曲霉产谷氨酰胺合成酶基因的同源性大于97%,与其他曲霉产谷氨酰胺合成酶的基因同源性大于50%.经开放阅读框软件分析发现其具有2个外显子,其中1个外显子的氨基酸序列与黑曲霉产GS同源性为100%.%On the basis of GS mRNA and specific primer, Using 3'RACE PCR amplified the gene sequence and analyzed some bioinformatics information of the sequence in NCBI web. GS DNA fragment was about 1. 0 kb. The sequence blast showed that the homology of fragment with GS gene of Asp. niger in GenbBank was more than 97 % and with other Asp were more than 50%. Open reading frame analyzed that it included 2 exon, one of which had 100% homology with GS of Asp. niger.

  1. Secondary NAD+ deficiency in the inherited defect of glutamine synthetase.

    Science.gov (United States)

    Hu, Liyan; Ibrahim, Khalid; Stucki, Martin; Frapolli, Michele; Shahbeck, Noora; Chaudhry, Farrukh A; Görg, Boris; Häussinger, Dieter; Penberthy, W Todd; Ben-Omran, Tawfeg; Häberle, Johannes

    2015-11-01

    Glutamine synthetase (GS) deficiency is an ultra-rare inborn error of amino acid metabolism that has been described in only three patients so far. The disease is characterized by neonatal onset of severe encephalopathy, low levels of glutamine in blood and cerebrospinal fluid, chronic moderate hyperammonemia, and an overall poor prognosis in the absence of an effective treatment. Recently, enteral glutamine supplementation was shown to be a safe and effective therapy for this disease but there are no data available on the long-term effects of this intervention. The amino acid glutamine, severely lacking in this disorder, is central to many metabolic pathways in the human organism and is involved in the synthesis of nicotinamide adenine dinucleotide (NAD(+)) starting from tryptophan or niacin as nicotinate, but not nicotinamide. Using fibroblasts, leukocytes, and immortalized peripheral blood stem cells (PBSC) from a patient carrying a GLUL gene point mutation associated with impaired GS activity, we tested whether glutamine deficiency in this patient results in NAD(+) depletion and whether it can be rescued by supplementation with glutamine, nicotinamide or nicotinate. The present study shows that congenital GS deficiency is associated with NAD(+) depletion in fibroblasts, leukocytes and PBSC, which may contribute to the severe clinical phenotype of the disease. Furthermore, it shows that NAD(+) depletion can be rescued by nicotinamide supplementation in fibroblasts and leukocytes, which may open up potential therapeutic options for the treatment of this disorder.

  2. Aminoacyl-tRNA Synthetases in the Bacterial World.

    Science.gov (United States)

    Giegé, Richard; Springer, Mathias

    2016-05-01

    Aminoacyl-tRNA synthetases (aaRSs) are modular enzymes globally conserved in the three kingdoms of life. All catalyze the same two-step reaction, i.e., the attachment of a proteinogenic amino acid on their cognate tRNAs, thereby mediating the correct expression of the genetic code. In addition, some aaRSs acquired other functions beyond this key role in translation. Genomics and X-ray crystallography have revealed great structural diversity in aaRSs (e.g., in oligomery and modularity, in ranking into two distinct groups each subdivided in 3 subgroups, by additional domains appended on the catalytic modules). AaRSs show huge structural plasticity related to function and limited idiosyncrasies that are kingdom or even species specific (e.g., the presence in many Bacteria of non discriminating aaRSs compensating for the absence of one or two specific aaRSs, notably AsnRS and/or GlnRS). Diversity, as well, occurs in the mechanisms of aaRS gene regulation that are not conserved in evolution, notably between distant groups such as Gram-positive and Gram-negative Bacteria. The review focuses on bacterial aaRSs (and their paralogs) and covers their structure, function, regulation, and evolution. Structure/function relationships are emphasized, notably the enzymology of tRNA aminoacylation and the editing mechanisms for correction of activation and charging errors. The huge amount of genomic and structural data that accumulated in last two decades is reviewed, showing how the field moved from essentially reductionist biology towards more global and integrated approaches. Likewise, the alternative functions of aaRSs and those of aaRS paralogs (e.g., during cell wall biogenesis and other metabolic processes in or outside protein synthesis) are reviewed. Since aaRS phylogenies present promiscuous bacterial, archaeal, and eukaryal features, similarities and differences in the properties of aaRSs from the three kingdoms of life are pinpointed throughout the review and

  3. Bacterial Type I Glutamine Synthetase of the Rifamycin SV Producing Actinomycete, Amycolatopsis mediterranei U32, is the Only Enzyme Responsible for Glutamine Synthesis under Physiological Conditions

    Institute of Scientific and Technical Information of China (English)

    Wen-Tao PENG; Jin WANG; Ting WU; Jian-Qiang HUANG; Jui-Shen CHIAO; Guo-Ping ZHAO

    2006-01-01

    The structural gene for glutamine synthetase, glnA, from Amycolatopsis mediterranei U32 was cloned via screening a genomic library using the analog gene from Streptomyces coelicolor. The clone was functionally verified by complementing for glutamine requirement of an Escherichia coli glnA null mutant under the control of a lac promoter. Sequence analysis showed an open reading frame encoding a protein of466 amino acid residues. The deduced amino acid sequence bears significant homologies to other bacterial type I glutamine synthetases, specifically, 71% and 72% identical to the enzymes of S. coelicolor and Mycobacterium tuberculosis, respectively. Disruption of this glnA gene in A. mediterranei U32 led to glutamine auxotrophy with no detectable glutamine synthetase activity in vivo. In contrast, the cloned glnA+ gene can complement for both phenotypes in trans. It thus suggested that in A. mediterranei U32, the glnA gene encoding glutamine synthetase is uniquely responsible for in vivo glutamine synthesis under our laboratory defined physiological conditions.

  4. Characterization of Two Members among the Five ADP-Forming Acyl Coenzyme A (Acyl-CoA) Synthetases Reveals the Presence of a 2-(Imidazol-4-yl)Acetyl-CoA Synthetase in Thermococcus kodakarensis

    OpenAIRE

    Awano, Tomotsugu; Wilming, Anja; Tomita, Hiroya; Yokooji, Yuusuke; Fukui, Toshiaki; Imanaka, Tadayuki; Atomi, Haruyuki

    2014-01-01

    The genome of Thermococcus kodakarensis, along with those of most Thermococcus and Pyrococcus species, harbors five paralogous genes encoding putative α subunits of nucleoside diphosphate (NDP)-forming acyl coenzyme A (acyl-CoA) synthetases. The substrate specificities of the protein products for three of these paralogs have been clarified through studies on the individual enzymes from Pyrococcus furiosus and T. kodakarensis. Here we have examined the biochemical properties of the remaining t...

  5. A novel, enigmatic histone modification: biotinylation of histones by holocarboxylase synthetase.

    Science.gov (United States)

    Hassan, Yousef I; Zempleni, Janos

    2008-12-01

    Holocarboxylase synthetase catalyzes the covalent binding of biotin to histones in humans and other eukaryotes. Eleven biotinylation sites have been identified in histones H2A, H3, and H4. K12-biotinylated histone H4 is enriched in heterochromatin, repeat regions, and plays a role in gene repression. About 30% of the histone H4 molecules are biotinylated at K12 in histone H4 in human fibroblast telomeres. The abundance of biotinylated histones at distinct genomic loci depends on biotin availability. Decreased histone biotinylation decreases life span and stress resistance in Drosophila. Low enrichment of biotinylated histones at transposable elements impairs repression of these elements.

  6. A Multiple Aminoacyl-tRNA Synthetase Complex That Enhances tRNA-Aminoacylation in African Trypanosomes

    OpenAIRE

    Cestari, Igor; Kalidas, Savitha; Monnerat, Severine; Anupama, Atashi; Phillips, Margaret A.; Stuart, Kenneth

    2013-01-01

    The genes for all cytoplasmic and potentially all mitochondrial aminoacyl-tRNA synthetases (aaRSs) were identified, and all those tested by RNA interference were found to be essential for the growth of Trypanosoma brucei. Some of these enzymes were localized to the cytoplasm or mitochondrion, but most were dually localized to both cellular compartments. Cytoplasmic T. brucei aaRSs were organized in a multiprotein complex in both bloodstream and procyclic forms. The multiple aminoacyl-tRNA syn...

  7. Function of the major synthetase subdomains of carbamyl-phosphate synthetase.

    Science.gov (United States)

    Guy, H I; Evans, D R

    1996-06-01

    The amidotransferase domain (GLNase) of mammalian carbamyl-phosphate synthetase II hydrolyzes glutamine and transfers ammonia to the synthetase domain where carbamyl phosphate is formed in a three-step reaction sequence. The synthetase domain consists of two homologous subdomains, CPS.A and CPS.B. Recent studies suggest that CPS.A catalyzes the initial ATP dependent-activation of bicarbonate, whereas CPS.B uses a second ATP to form carbamyl phosphate. To establish the function of these substructural elements, we have cloned and expressed the mammalian protein and its subdomains in Escherichia coli. Recombinant CPSase (GLNase-CPS.A-CPS.B) was found to be fully functional. Two other proteins were made; the first consisted of only GLNase and CPS.A, whereas the second lacked CPS.A and had the GLNase domain fused directly to CPS.B. Remarkably, both proteins catalyzed the entire series of reactions involved in glutamine-dependent carbamyl phosphate synthesis. The stoichiometry, like that of the native enzyme, was 2 mol of ATP utilized per mol of carbamyl phosphate formed. GLN-CPS.B is allosterically regulated, whereas GLN-CPS.A was insensitive to effectors, a result consistent with evidence showing that allosteric effectors bind to CPS.B. These properties are not peculiar to the mammalian protein, because the separately cloned CPS.A subdomain of the E. coli enzyme was also found to catalyze carbamyl phosphate synthesis. Gel filtration chromatography and chemical cross-linking studies showed that these molecules are dimers, a structural organization that may be a prerequisite for the overall reaction. Thus, the homologous CPS.A and CPS.B subdomains are functionally equivalent, although in the native enzyme they may have different functions resulting from their juxtaposition relative to the other components in the complex. PMID:8662713

  8. Glucocorticoid receptor-mediated induction of glutamine synthetase in skeletal muscle cells in vitro

    Science.gov (United States)

    Max, Stephen R.; Thomas, John W.; Banner, Carl; Vitkovic, Ljubisa; Konagaya, Masaaki

    1987-01-01

    The regulation by glucocorticoids of glutamine synthetase in L6 muscle cells in culture is studied. Glutamine synthetase activity was strikingly enhanced by dexamethasone. The dexamethasone-mediated induction of glutamine synthetase activity was blocked by RU38486, a glucocorticoid antagonist, indicating the involvement of intracellular glucocorticoid receptors in the induction process. RU38486 alone was without effect. Northern blot analysis revealed that dexamethasone-mediated enhancement of glutamine synthetase activity involves increased levels of glutamine synthetase mRNA. Glucocorticoids regulate the expression of glutamine synthetase mRNA in cultured muscle cells via interaction with intracellular receptors. Such regulation may be relevant to control of glutamine production by muscle.

  9. Antimalarial Benzoxaboroles Target Plasmodium falciparum Leucyl-tRNA Synthetase.

    Science.gov (United States)

    Sonoiki, Ebere; Palencia, Andres; Guo, Denghui; Ahyong, Vida; Dong, Chen; Li, Xianfeng; Hernandez, Vincent S; Zhang, Yong-Kang; Choi, Wai; Gut, Jiri; Legac, Jennifer; Cooper, Roland; Alley, M R K; Freund, Yvonne R; DeRisi, Joseph; Cusack, Stephen; Rosenthal, Philip J

    2016-08-01

    There is a need for new antimalarials, ideally with novel mechanisms of action. Benzoxaboroles have been shown to be active against bacteria, fungi, and trypanosomes. Therefore, we investigated the antimalarial activity and mechanism of action of 3-aminomethyl benzoxaboroles against Plasmodium falciparum Two 3-aminomethyl compounds, AN6426 and AN8432, demonstrated good potency against cultured multidrug-resistant (W2 strain) P. falciparum (50% inhibitory concentration [IC50] of 310 nM and 490 nM, respectively) and efficacy against murine Plasmodium berghei infection when administered orally once daily for 4 days (90% effective dose [ED90], 7.4 and 16.2 mg/kg of body weight, respectively). To characterize mechanisms of action, we selected parasites with decreased drug sensitivity by culturing with stepwise increases in concentration of AN6426. Resistant clones were characterized by whole-genome sequencing. Three generations of resistant parasites had polymorphisms in the predicted editing domain of the gene encoding a P. falciparum leucyl-tRNA synthetase (LeuRS; PF3D7_0622800) and in another gene (PF3D7_1218100), which encodes a protein of unknown function. Solution of the structure of the P. falciparum LeuRS editing domain suggested key roles for mutated residues in LeuRS editing. Short incubations with AN6426 and AN8432, unlike artemisinin, caused dose-dependent inhibition of [(14)C]leucine incorporation by cultured wild-type, but not resistant, parasites. The growth of resistant, but not wild-type, parasites was impaired in the presence of the unnatural amino acid norvaline, consistent with a loss of LeuRS editing activity in resistant parasites. In summary, the benzoxaboroles AN6426 and AN8432 offer effective antimalarial activity and act, at least in part, against a novel target, the editing domain of P. falciparum LeuRS.

  10. Evolution of selenophosphate synthetases: emergence and relocation of function through independent duplications and recurrent subfunctionalization.

    Science.gov (United States)

    Mariotti, Marco; Santesmasses, Didac; Capella-Gutierrez, Salvador; Mateo, Andrea; Arnan, Carme; Johnson, Rory; D'Aniello, Salvatore; Yim, Sun Hee; Gladyshev, Vadim N; Serras, Florenci; Corominas, Montserrat; Gabaldón, Toni; Guigó, Roderic

    2015-09-01

    Selenoproteins are proteins that incorporate selenocysteine (Sec), a nonstandard amino acid encoded by UGA, normally a stop codon. Sec synthesis requires the enzyme Selenophosphate synthetase (SPS or SelD), conserved in all prokaryotic and eukaryotic genomes encoding selenoproteins. Here, we study the evolutionary history of SPS genes, providing a map of selenoprotein function spanning the whole tree of life. SPS is itself a selenoprotein in many species, although functionally equivalent homologs that replace the Sec site with cysteine (Cys) are common. Many metazoans, however, possess SPS genes with substitutions other than Sec or Cys (collectively referred to as SPS1). Using complementation assays in fly mutants, we show that these genes share a common function, which appears to be distinct from the synthesis of selenophosphate carried out by the Sec- and Cys- SPS genes (termed SPS2), and unrelated to Sec synthesis. We show here that SPS1 genes originated through a number of independent gene duplications from an ancestral metazoan selenoprotein SPS2 gene that most likely already carried the SPS1 function. Thus, in SPS genes, parallel duplications and subsequent convergent subfunctionalization have resulted in the segregation to different loci of functions initially carried by a single gene. This evolutionary history constitutes a remarkable example of emergence and evolution of gene function, which we have been able to trace thanks to the singular features of SPS genes, wherein the amino acid at a single site determines unequivocally protein function and is intertwined to the evolutionary fate of the entire selenoproteome.

  11. The 2'-5'-oligoadenylate synthetase in the lowest metazoa: isolation, cloning, expression and functional activity in the sponge Lubomirskia baicalensis.

    Science.gov (United States)

    Schröder, Heinz C; Natalio, Filipe; Wiens, Matthias; Tahir, Muhammad Nawaz; Shukoor, Mohammed Ibrahim; Tremel, Wolfgang; Belikov, Sergey I; Krasko, Anatoli; Müller, Werner E G

    2008-02-01

    Aquatic animals, especially filter feeders such as sponges [phylum Porifera], are exposed to a higher viral load than terrestrial species. Until now, the antiviral defense system in the evolutionary oldest multicellular organisms, sponges, is not understood. One powerful protection of vertebrates against virus infection is mediated by the interferon (IFN)-inducible 2'-5'-oligoadenylate synthetase [(2-5)A synthetase] system. In the present study we cloned from the freshwater sponge Lubomirskia baicalensis a cDNA encoding a 314 aa long ORF with a calculated size of 35748Da, a putative (2-5)A synthetase, and raised antibodies against the recombinant protein. The native enzyme was identified in a crude extract from L. baicalensis by application of a novel separation procedure based on polymer coated ferromagnetic nanoparticles. The particles were derivatized with a synthetic double-stranded RNA [dsRNA], synthetic poly(I:C), a known allosteric activator of the latent (2-5)A synthetase. These particles were used to separate a single 35kDa protein from a crude extract of L. baicalensis, which cross-reacted with antibodies raised against the sponge enzyme. In situ hybridization studies revealed that highest expression of the gene is seen in cells surrounding the aquiferous canals. Finally primmorphs, an in vitro cell culture system, from L. baicalensis were exposed to poly(I:C); they responded to this dsRNA with an increased expression of the (2-5)A synthetase gene already after a 1-day incubation period. We conclude that sponges contain the (2-5)A synthetase antiviral protection system.

  12. Kinetics profiling of gramicidin S synthetase A, a member of nonribosomal peptide synthetases.

    Science.gov (United States)

    Sun, Xun; Li, Hao; Alfermann, Jonas; Mootz, Henning D; Yang, Haw

    2014-12-23

    Nonribosomal peptide synthetases (NRPS) incorporate assorted amino acid substrates into complex natural products. The substrate is activated via the formation of a reactive aminoacyl adenylate and is subsequently attached to the protein template via a thioester bond. The reactive nature of such intermediates, however, leads to side reactions that also break down the high-energy anhydride bond. The off-pathway kinetics or their relative weights compared to that of the on-pathway counterpart remains generally elusive. Here, we introduce multiplatform kinetics profiling to quantify the relative weights of on- and off-pathway reactions. Using the well-defined stoichiometry of thioester formation, we integrate a mass spectrometry (MS) kinetics assay, a high-performance liquid chromatography (HPLC) assay, and an ATP-pyrophosphate (PPi) exchange assay to map out a highly efficient on-pathway kinetics profile of the substrate activation and intermediate uploading (>98% relative weight) for wide-type gramicidin S synthetase A (GrsA) and a 87% rate profile for a cysteine-free GrsA mutant. Our kinetics profiling approach complements the existing enzyme-coupled byproduct-release assays, unraveling new mechanistic insights of substrate activation/channeling in NRPS enzymes. PMID:25437123

  13. Kinetics profiling of gramicidin S synthetase A, a member of nonribosomal peptide synthetases.

    Science.gov (United States)

    Sun, Xun; Li, Hao; Alfermann, Jonas; Mootz, Henning D; Yang, Haw

    2014-12-23

    Nonribosomal peptide synthetases (NRPS) incorporate assorted amino acid substrates into complex natural products. The substrate is activated via the formation of a reactive aminoacyl adenylate and is subsequently attached to the protein template via a thioester bond. The reactive nature of such intermediates, however, leads to side reactions that also break down the high-energy anhydride bond. The off-pathway kinetics or their relative weights compared to that of the on-pathway counterpart remains generally elusive. Here, we introduce multiplatform kinetics profiling to quantify the relative weights of on- and off-pathway reactions. Using the well-defined stoichiometry of thioester formation, we integrate a mass spectrometry (MS) kinetics assay, a high-performance liquid chromatography (HPLC) assay, and an ATP-pyrophosphate (PPi) exchange assay to map out a highly efficient on-pathway kinetics profile of the substrate activation and intermediate uploading (>98% relative weight) for wide-type gramicidin S synthetase A (GrsA) and a 87% rate profile for a cysteine-free GrsA mutant. Our kinetics profiling approach complements the existing enzyme-coupled byproduct-release assays, unraveling new mechanistic insights of substrate activation/channeling in NRPS enzymes.

  14. Bioinformatics analysis of long chain acyl-coenzyme A synthetases homologous genes in Chlamydomonas reinhardtii%莱茵衣藻长链酰基辅酶A合成酶(LACS)同源基因的生物信息学分析

    Institute of Scientific and Technical Information of China (English)

    顾守来; 马忠岩; 谭小力

    2012-01-01

    长链酰基辅酶A合成酶(LACS)能催化游离的脂肪酸形成酰基辅酶A硫脂,在油脂合成及降解途径中起着重要的作用.研究在莱茵衣藻(Chlamydomonas reinhardtii)中发现两个LACS基因,将其命名为CrLACS1和CrLACS2.生物信息学分析表明CrLACS1和CrLACS2在蛋白的理化性质及结构上都具有较高的相似性,而系统进化树分析显示CrLACS1和CrLACS2处于不同分枝,预测亚细胞定位也不相同.综合结果表明,CrLACS1和CrLACS2具有相似的结构,催化相同的反应,但具有不同的生物学功能.他们可能参与油脂代谢的不同途径:CrLACS1参与油脂的合成途径,而CrLACS2参与油脂的降解途径.%Long chain acyl-eoenzyme A synthetases (LACSs) activate free fatty acid to acyl-CoA thioesters, and play important roles in the biosynthesis and degradation of lipids. In this study, two LACS genes were found in Chlamydomonas reinhardtii and designated as CrLACSl and CrLACS2. CrLACSl and CrLACS2 were highly similar in physicochemical characters and structure using bioinformatics methods. But, the phylogenetic tree analysis showed that CrLACSl and CrLACS2 were in different clade, and subcellular localization analysis indicated that they were in different cellular organelles. Taken together, though CrLACSl and CrLACS2 catalyzed the same reaction as their similar structures, they participated in the different pathways. CrLACSl participated in the pathway of lipid biosynthesis , while CrLACS2 played a role in the degradation of lipid.

  15. Ancient origin of the divergent forms of leucyl-tRNA synthetases in the Halobacteriales

    Directory of Open Access Journals (Sweden)

    Andam Cheryl P

    2012-06-01

    Full Text Available Abstract Background Horizontal gene transfer (HGT has greatly impacted the genealogical history of many lineages, particularly for prokaryotes, with genes frequently moving in and out of a line of descent. Many genes that were acquired by a lineage in the past likely originated from ancestral relatives that have since gone extinct. During the course of evolution, HGT has played an essential role in the origin and dissemination of genetic and metabolic novelty. Results Three divergent forms of leucyl-tRNA synthetase (LeuRS exist in the archaeal order Halobacteriales, commonly known as haloarchaea. Few haloarchaeal genomes have the typical archaeal form of this enzyme and phylogenetic analysis indicates it clusters within the Euryarchaeota as expected. The majority of sequenced halobacterial genomes possess a bacterial form of LeuRS. Phylogenetic reconstruction puts this larger group of haloarchaea at the base of the bacterial domain. The most parsimonious explanation is that an ancient transfer of LeuRS took place from an organism related to the ancestor of the bacterial domain to the haloarchaea. The bacterial form of LeuRS further underwent gene duplications and/or gene transfers within the haloarchaea, with some genomes possessing two distinct types of bacterial LeuRS. The cognate tRNALeu also reveals two distinct clusters for the haloarchaea; however, these tRNALeu clusters do not coincide with the groupings found in the LeuRS tree, revealing that LeuRS evolved independently of its cognate tRNA. Conclusions The study of leucyl-tRNA synthetase in haloarchaea illustrates the importance of gene transfer originating in lineages that went extinct since the transfer occurred. The haloarchaeal LeuRS and tRNALeu did not co-evolve.

  16. Purification and characterization of recombinant Plasmodium falciparum adenylosuccinate synthetase expressed in Escherichia coli.

    Science.gov (United States)

    Jayalakshmi, R; Sumathy, K; Balaram, Hemalatha

    2002-06-01

    Most parasitic protozoa lack the de novo purine biosynthetic pathway and rely exclusively on the salvage pathway for their purine nucleotide requirements. Enzymes of the salvage pathway are, therefore, candidate drug targets. We have cloned the Plasmodium falciparum adenylosuccinate synthetase gene. In the parasite, adenylosuccinate synthetase is involved in the synthesis of AMP from IMP formed during the salvage of the purine base, hypoxanthine. The gene was shown to code for a functionally active protein by functional complementation in a purA mutant strain of Escherichia coli, H1238. This paper reports the conditions for hyperexpression of the recombinant protein in E. coli BL21(DE3) and purification of the protein to homogeneity. The enzyme was found to require the presence of dithiothreitol during the entire course of the purification for activity. Glycerol and EDTA were found to stabilize enzyme activity during storage. The specific activity of the purified protein was 1143.6 +/- 36.8 mUnits/mg. The K(M)s for the three substrates, GTP, IMP, and aspartate, were found to be 4.8 microM, 22.8 microM, and 1.4 mM, respectively. The enzyme was a dimer on gel filtration in buffers of low ionic strength but equilibrated between a monomer and a dimer in buffers of increased ionic strength.

  17. Changes in the activity levels of glutamine synthetase, glutaminase and glycogen synthetase in rats subjected to hypoxic stress

    Science.gov (United States)

    Vats, P.; Mukherjee, A. K.; Kumria, M. M. L.; Singh, S. N.; Patil, S. K. B.; Rangnathan, S.; Sridharan, K.

    Exposure to high altitude causes loss of body mass and alterations in metabolic processes, especially carbohydrate and protein metabolism. The present study was conducted to elucidate the role of glutamine synthetase, glutaminase and glycogen synthetase under conditions of chronic intermittent hypoxia. Four groups, each consisting of 12 male albino rats (Wistar strain), were exposed to a simulated altitude of 7620 m in a hypobaric chamber for 6 h per day for 1, 7, 14 and 21 days, respectively. Blood haemoglobin, blood glucose, protein levels in the liver, muscle and plasma, glycogen content, and glutaminase, glutamine synthetase and glycogen synthetase activities in liver and muscle were determined in all groups of exposed and in a group of unexposed animals. Food intake and changes in body mass were also monitored. There was a significant reduction in body mass (28-30%) in hypoxia-exposed groups as compared to controls, with a corresponding decrease in food intake. There was rise in blood haemoglobin and plasma protein in response to acclimatisation. Over a three-fold increase in liver glycogen content was observed following 1 day of hypoxic exposure (4.76+/-0.78 mg.g-1 wet tissue in normal unexposed rats; 15.82+/-2.30 mg.g-1 wet tissue in rats exposed to hypoxia for 1 day). This returned to normal in later stages of exposure. However, there was no change in glycogen synthetase activity except for a decrease in the 21-days hypoxia-exposed group. There was a slight increase in muscle glycogen content in the 1-day exposed group which declined significantly by 56.5, 50.6 and 42% following 7, 14, and 21 days of exposure, respectively. Muscle glycogen synthetase activity was also decreased following 21 days of exposure. There was an increase in glutaminase activity in the liver and muscle in the 7-, 14- and 21-day exposed groups. Glutamine synthetase activity was higher in the liver in 7- and 14-day exposed groups; this returned to normal following 21 days of exposure

  18. Discovery of unique lanthionine synthetases reveals new mechanistic and evolutionary insights.

    Directory of Open Access Journals (Sweden)

    Yuki Goto

    2010-03-01

    Full Text Available Lantibiotic synthetases are remarkable biocatalysts generating conformationally constrained peptides with a variety of biological activities by repeatedly utilizing two simple posttranslational modification reactions: dehydration of Ser/Thr residues and intramolecular addition of Cys thiols to the resulting dehydro amino acids. Since previously reported lantibiotic synthetases show no apparent homology with any other known protein families, the molecular mechanisms and evolutionary origin of these enzymes are unknown. In this study, we present a novel class of lanthionine synthetases, termed LanL, that consist of three distinct catalytic domains and demonstrate in vitro enzyme activity of a family member from Streptomyces venezuelae. Analysis of individually expressed and purified domains shows that LanL enzymes install dehydroamino acids via phosphorylation of Ser/Thr residues by a protein kinase domain and subsequent elimination of the phosphate by a phosphoSer/Thr lyase domain. The latter has sequence homology with the phosphothreonine lyases found in various pathogenic bacteria that inactivate host mitogen activated protein kinases. A LanC-like cyclase domain then catalyzes the addition of Cys residues to the dehydro amino acids to form the characteristic thioether rings. We propose that LanL enzymes have evolved from stand-alone protein Ser/Thr kinases, phosphoSer/Thr lyases, and enzymes catalyzing thiol alkylation. We also demonstrate that the genes for all three pathways to lanthionine-containing peptides are widespread in Nature. Given the remarkable efficiency of formation of lanthionine-containing polycyclic peptides and the latter's high degree of specificity for their cognate cellular targets, it is perhaps not surprising that (at least three distinct families of polypeptide sequences have evolved to access this structurally and functionally diverse class of compounds.

  19. Mutations in the Mitochondrial Methionyl-tRNA Synthetase Cause a Neurodegenerative Phenotype in Flies and a Recessive Ataxia (ARSAL) in Humans

    OpenAIRE

    Bayat, Vafa; Thiffault, Isabelle; Jaiswal, Manish; Tétreault, Martine; Donti, Taraka; Sasarman, Florin; Bernard, Geneviève; Demers-Lamarche, Julie; Dicaire, Marie-Josée; Mathieu, Jean; Vanasse, Michel; Bouchard, Jean-Pierre; Rioux, Marie-France; Lourenco, Charles M; Li, Zhihong

    2012-01-01

    An increasing number of genes required for mitochondrial biogenesis, dynamics, or function have been found to be mutated in metabolic disorders and neurological diseases such as Leigh Syndrome. In a forward genetic screen to identify genes required for neuronal function and survival in Drosophila photoreceptor neurons, we have identified mutations in the mitochondrial methionyl-tRNA synthetase, Aats-met, the homologue of human MARS2. The fly mutants exhibit age-dependent degeneration of photo...

  20. Molecular cloning, sequencing and expression in Escherichia coli cells Thermus thermophilus leucyl-tRNA synthetase

    Directory of Open Access Journals (Sweden)

    Kovalenko O. P.

    2011-12-01

    Full Text Available Aim. Cloning and sequencing of the T. thermophilus leucyl-tRNA synthetase (LeuRSTT followed by the creation of genetically engineered construct for protein expression in E.coli cells and its purification. Methods. Searching for the LeuRSTT gene was performed by Southern blot hybridization with chromosomal DNA, where digoxigenin-labeled PCR fragments of DNA were used as probes. Results. The gene of T. thermophilus HB27 leucyl-tRNA synthetase was cloned and sequenced. The open reading frame encodes a polypeptide chain of 878 amino acid residues in length (molecular mass 101 kDa. Comparison of the amino acid sequence of T. thermophilus LeuRS with that of the enzymes from other organisms showed that LeuRSTT was a part of the group of similar enzymes of prokaryotes, formed by the proteins of protobacteriae, rickettsia and mitochondria of eukaryotes. The resulting phylogenetic tree of LeuRSs reveals dichotomous branching into two lines: prokaryotic/eukaryotic mitochondrial and arhaeal/eukaryotic cytosolic proteins. Differences between prokaryotic and arhaeal branches of the LeuRSs phylogenetic tree are primarily due to the structure of two domains of the enzyme – the editing and the C-terminal. T. thermophilus LeuRS was expressed in E. coli cells by cloning the corresponding gene into pET29b vector. Conclusions. The cloned T. thermophilus leuS gene and expressed recombinant protein will be used for structural and functional studies on LeuRSTT, including X-ray analysis of the enzyme and its mutant forms in complex with different substrates

  1. Minireview on Glutamine Synthetase Deficiency, an Ultra-Rare Inborn Error of Amino Acid Biosynthesis

    Directory of Open Access Journals (Sweden)

    Marta Spodenkiewicz

    2016-10-01

    Full Text Available Glutamine synthetase (GS is a cytosolic enzyme that produces glutamine, the most abundant free amino acid in the human body. Glutamine is a major substrate for various metabolic pathways, and is thus an important factor for the functioning of many organs; therefore, deficiency of glutamine due to a defect in GS is incompatible with normal life. Mutations in the human GLUL gene (encoding for GS can cause an ultra-rare recessive inborn error of metabolism—congenital glutamine synthetase deficiency. This disease was reported until now in only three unrelated patients, all of whom suffered from neonatal onset severe epileptic encephalopathy. The hallmark of GS deficiency in these patients was decreased levels of glutamine in body fluids, associated with chronic hyperammonemia. This review aims at recapitulating the clinical history of the three known patients with congenital GS deficiency and summarizes the findings from studies done along with the work-up of these patients. It is the aim of this paper to convince the reader that (i this disorder is possibly underdiagnosed, since decreased concentrations of metabolites do not receive the attention they deserve; and (ii early detection of GS deficiency may help to improve the outcome of patients who could be treated early with metabolites that are lacking in this condition.

  2. Required allosteric effector site for N-acetylglutamate on carbamoyl-phosphate synthetase I.

    Science.gov (United States)

    McCudden, C R; Powers-Lee, S G

    1996-07-26

    Carbamoyl-phosphate synthetase I (CPSase I) catalyzes the entry and rate-limiting step in the urea cycle, the pathway by which mammals detoxify ammonia. One facet of CPSase I regulation is a requirement for N-acetylglutamate (AGA), which induces an active enzyme conformation and does not participate directly in the chemical reaction. We have utilized labeling with carbodiimide-activated [14C]AGA to identify peptides 120-127, 234-237, 625-630, and 1351-1356 as potentially being near the binding site for AGA. Identification of peptide 1351-1356 confirms the previous demonstration (Rodriquez-Aparicio, L. B., Guadalajara, A. M., and Rubio, V.(1989) Biochemistry 28, 3070-3074) that the C-terminal region is involved in binding AGA. Identification of peptides 120-127 and 234-237 constitutes the first evidence that the N-terminal region of the synthetase is involved in ligand binding. Since peptides 631-638 and 1327-1348 have been identified near the ATP site of CPSase I (Potter, M. D., and Powers-Lee, S. G.(1992) J. Biol. Chem. 267, 2023-2031), the present finding of involvement of peptides 625-630 and 1351-1356 at an "allosteric" activator site was unexpected. The idea that portions of the AGA effector site might be derived from an ancestral glutamine substrate site via a gene duplication and diversification event was considered. PMID:8663466

  3. Sirtuin-dependent reversible lysine acetylation of glutamine synthetases reveals an autofeedback loop in nitrogen metabolism.

    Science.gov (United States)

    You, Di; Yin, Bin-Cheng; Li, Zhi-Hai; Zhou, Ying; Yu, Wen-Bang; Zuo, Peng; Ye, Bang-Ce

    2016-06-14

    In cells of all domains of life, reversible lysine acetylation modulates the function of proteins involved in central cellular processes such as metabolism. In this study, we demonstrate that the nitrogen regulator GlnR of the actinomycete Saccharopolyspora erythraea directly regulates transcription of the acuA gene (SACE_5148), which encodes a Gcn5-type lysine acetyltransferase. We found that AcuA acetylates two glutamine synthetases (GlnA1 and GlnA4) and that this lysine acetylation inactivated GlnA4 (GSII) but had no significant effect on GlnA1 (GSI-β) activity under the conditions tested. Instead, acetylation of GlnA1 led to a gain-of-function that modulated its interaction with the GlnR regulator and enhanced GlnR-DNA binding. It was observed that this regulatory function of acetylated GSI-β enzymes is highly conserved across actinomycetes. In turn, GlnR controls the catalytic and regulatory activities (intracellular acetylation levels) of glutamine synthetases at the transcriptional and posttranslational levels, indicating an autofeedback loop that regulates nitrogen metabolism in response to environmental change. Thus, this GlnR-mediated acetylation pathway provides a signaling cascade that acts from nutrient sensing to acetylation of proteins to feedback regulation. This work presents significant new insights at the molecular level into the mechanisms underlying the regulation of protein acetylation and nitrogen metabolism in actinomycetes. PMID:27247389

  4. Glutamine synthetase in Medicago truncatula, unveiling new secrets of a very old enzyme

    Directory of Open Access Journals (Sweden)

    Ana Rita Seabra

    2015-07-01

    Full Text Available Glutamine Synthetase (GS catalyses the first step at which nitrogen is brought into cellular metabolism and is also involved in the reassimilation of ammonium released by a number of metabolic pathways. Due to its unique position in plant nitrogen metabolism, GS plays essential roles in all aspects of plant development, from germination to senescence, and is a key component of nitrogen use efficiency (NUE and plant yield. Understanding the mechanisms regulating GS activity is therefore of utmost importance and a great effort has been dedicated to understand how GS is regulated in different plant species. The present review summarizes exciting recent developments concerning the structure and regulation of glutamine synthetase isoenzymes, using the model legume Medicago truncatula. These include the understanding of the structural determinants of both the cytosolic and plastid located isoenzymes, the existence of a seed-specific GS gene unique to M. truncatula and closely related species and the discovery that GS isoenzymes are regulated by nitric oxide at the post-translational level. The data is discussed and integrated with the potential roles of the distinct GS isoenzymes within the whole plant context.

  5. H2S synthetase AtD-CDes involves in ethylene and drought regulated stomatal movement

    Institute of Scientific and Technical Information of China (English)

    Lixia Hou; Dan Zhu; Qian Ma; Dandan Zhang; Xin Liu

    2016-01-01

    The endogenous hydrogen sulfide (H2S),as a new gasotransmitter,participates in many plant physiological processes.In this study,we found that both ethylene and drought strongly induced H2S synthetase AtD-CDes gene expression and enzymatic activity.H2S synthesis inhibitors restrained the ethylene and drought induced stomatal closure in Arabidopsis.The H2S synthetase mutant Atd-cdes was insensitive to ethylene and drought,and overexpression of AtD-CDes conferred the transgenic plants more sensitive to ethylene and drought.Sequence analysis of AtD-CDes promoter showed that it contained ethylene response cis element ERE,and abiotic stress responsive cis elements MBS,LTR,and ABRE.The AtDCDes promoter fused with GUS was transformed into Arabidopsis thaliana to get AtD-CDes promoter::GUS transgenic plants.When treated with ethylene and drought stress,the enzymatic activity of β-glucuronidase was higher in the leaves and stomata of transgenic Arabidopsis.Analyses of GUS activity from the transgenic plants harboring different fragments of the promoter shows that the key section of AtD-CDes promoter response to ethylene was from the-697 to-408 bp,and the key section response to drought stress was from-90 to-1 bp.These results suggested that the H2S produced from AtD-CDes may mediate ethylene and drought-induced stomatal movement.

  6. Polyspecific pyrrolysyl-tRNA synthetases from directed evolution

    Science.gov (United States)

    Guo, Li-Tao; Wang, Yane-Shih; Nakamura, Akiyoshi; Eiler, Daniel; Kavran, Jennifer M.; Wong, Margaret; Kiessling, Laura L.; Steitz, Thomas A.; O’Donoghue, Patrick; Söll, Dieter

    2014-01-01

    Pyrrolysyl-tRNA synthetase (PylRS) and its cognate tRNAPyl have emerged as ideal translation components for genetic code innovation. Variants of the enzyme facilitate the incorporation >100 noncanonical amino acids (ncAAs) into proteins. PylRS variants were previously selected to acylate Nε-acetyl-Lys (AcK) onto tRNAPyl. Here, we examine an Nε-acetyl-lysyl-tRNA synthetase (AcKRS), which is polyspecific (i.e., active with a broad range of ncAAs) and 30-fold more efficient with Phe derivatives than it is with AcK. Structural and biochemical data reveal the molecular basis of polyspecificity in AcKRS and in a PylRS variant [iodo-phenylalanyl-tRNA synthetase (IFRS)] that displays both enhanced activity and substrate promiscuity over a chemical library of 313 ncAAs. IFRS, a product of directed evolution, has distinct binding modes for different ncAAs. These data indicate that in vivo selections do not produce optimally specific tRNA synthetases and suggest that translation fidelity will become an increasingly dominant factor in expanding the genetic code far beyond 20 amino acids. PMID:25385624

  7. Haploinsufficiency of glutamine synthetase increases susceptibility to experimental febrile seizures.

    NARCIS (Netherlands)

    Gassen, K.L.I. van; Hel, W.S. van der; Hakvoort, T.B.; Lamers, W.H.; Graan, P.N. de

    2009-01-01

    Glutamine synthetase (GS) is a pivotal glial enzyme in the glutamate-glutamine cycle. GS is important in maintaining low extracellular glutamate concentrations and is downregulated in the hippocampus of temporal lobe epilepsy patients with mesial-temporal sclerosis, an epilepsy syndrome that is freq

  8. Haploinsufficiency of glutamine synthetase increases susceptibility to experimental febrile seizures

    NARCIS (Netherlands)

    K.L.I. van Gassen; W.S. van der Hel; T.B.M. Hakvoort; W.H. Lamers; P.N.E. de Graan

    2009-01-01

    Glutamine synthetase (GS) is a pivotal glial enzyme in the glutamate-glutamine cycle. GS is important in maintaining low extracellular glutamate concentrations and is downregulated in the hippocampus of temporal lobe epilepsy patients with mesial-temporal sclerosis, an epilepsy syndrome that is freq

  9. Binding of divalent magnesium by Escherichia coli phosphoribosyl diphosphate synthetase

    DEFF Research Database (Denmark)

    Willemoës, Martin; Hove-Jensen, Bjarne

    1997-01-01

    The mechanism of binding of the substrates Mg x ATP and ribose 5-phosphate as well as Mg2+ to the enzyme 5-phospho-D-ribosyl (alpha-1-diphosphate synthetase from Escherichia coli has been analyzed. By use of the competive inhibitors of ATP and ribose 5-phosphate binding, alpha,beta-methylene ATP ...

  10. Glutamine Synthetase Deficiency in Murine Astrocytes Results in Neonatal Death

    NARCIS (Netherlands)

    Y. He; T.B.M. Hakvoort; J.L.M. Vermeulen; W.T. Labruyere; D.R. de Waart; W.S. van der Hel; J.M. Ruijter; H.B.M. Uylings; W.H. Lamers

    2010-01-01

    Glutamine synthetase (GS) is a key enzyme in the "glutamine-glutamate cycle" between astrocytes and neurons, but its function in vivo was thus far tested only pharmacologically. Crossing GS(fl/lacZ) or GS(fl/f)l mice with hGFAP-Cre mice resulted in prenatal excision of the GS(fl) allele in astrocyte

  11. Polyspecific pyrrolysyl-tRNA synthetases from directed evolution.

    Science.gov (United States)

    Guo, Li-Tao; Wang, Yane-Shih; Nakamura, Akiyoshi; Eiler, Daniel; Kavran, Jennifer M; Wong, Margaret; Kiessling, Laura L; Steitz, Thomas A; O'Donoghue, Patrick; Söll, Dieter

    2014-11-25

    Pyrrolysyl-tRNA synthetase (PylRS) and its cognate tRNA(Pyl) have emerged as ideal translation components for genetic code innovation. Variants of the enzyme facilitate the incorporation >100 noncanonical amino acids (ncAAs) into proteins. PylRS variants were previously selected to acylate N(ε)-acetyl-Lys (AcK) onto tRNA(Pyl). Here, we examine an N(ε)-acetyl-lysyl-tRNA synthetase (AcKRS), which is polyspecific (i.e., active with a broad range of ncAAs) and 30-fold more efficient with Phe derivatives than it is with AcK. Structural and biochemical data reveal the molecular basis of polyspecificity in AcKRS and in a PylRS variant [iodo-phenylalanyl-tRNA synthetase (IFRS)] that displays both enhanced activity and substrate promiscuity over a chemical library of 313 ncAAs. IFRS, a product of directed evolution, has distinct binding modes for different ncAAs. These data indicate that in vivo selections do not produce optimally specific tRNA synthetases and suggest that translation fidelity will become an increasingly dominant factor in expanding the genetic code far beyond 20 amino acids.

  12. Cellular concentrations of glutamine synthetase in murine organs

    NARCIS (Netherlands)

    H.W.M. van Straaten; Y.J. He; M.M. van Duist; W.T. Labruyere; J.L.M. Vermeulen; P.J. van Dijk; J.M. Ruijter; W.H. Lamers; T.B.M. Hakvoort

    2006-01-01

    Glutamine synthetase (GS) is the only enzyme that can synthesize glutamine, but it also functions to detoxify glutamate and ammonia. Organs with high cellular concentrations of GS appear to function primarily to remove glutamate or ammonia. whereas those with a low cellular concentration appear to p

  13. Chlamydia trachomatis Scavenges Host Fatty Acids for Phospholipid Synthesis via an Acyl-Acyl Carrier Protein Synthetase.

    Science.gov (United States)

    Yao, Jiangwei; Dodson, V Joshua; Frank, Matthew W; Rock, Charles O

    2015-09-01

    The obligate intracellular parasite Chlamydia trachomatis has a reduced genome but relies on de novo fatty acid and phospholipid biosynthesis to produce its membrane phospholipids. Lipidomic analyses showed that 8% of the phospholipid molecular species synthesized by C. trachomatis contained oleic acid, an abundant host fatty acid that cannot be made by the bacterium. Mass tracing experiments showed that isotopically labeled palmitic, myristic, and lauric acids added to the medium were incorporated into C. trachomatis-derived phospholipid molecular species. HeLa cells did not elongate lauric acid, but infected HeLa cell cultures elongated laurate to myristate and palmitate. The elongated fatty acids were incorporated exclusively into C. trachomatis-produced phospholipid molecular species. C. trachomatis has adjacent genes encoding the separate domains of the bifunctional acyl-acyl carrier protein (ACP) synthetase/2-acylglycerolphosphoethanolamine acyltransferase gene (aas) of Escherichia coli. The CT775 gene encodes an acyltransferase (LpaT) that selectively transfers fatty acids from acyl-ACP to the 1-position of 2-acyl-glycerophospholipids. The CT776 gene encodes an acyl-ACP synthetase (AasC) with a substrate preference for palmitic compared with oleic acid in vitro. Exogenous fatty acids were elongated and incorporated into phospholipids by Escherichia coli-expressing AasC, illustrating its function as an acyl-ACP synthetase in vivo. These data point to an AasC-dependent pathway in C. trachomatis that selectively scavenges host saturated fatty acids to be used for the de novo synthesis of its membrane constituents. PMID:26195634

  14. Identification of a phosphinothricin-resistant mutant of rice glutamine synthetase using DNA shuffling.

    Science.gov (United States)

    Tian, Yong-Sheng; Xu, Jing; Zhao, Wei; Xing, Xiao-Juan; Fu, Xiao-Yan; Peng, Ri-He; Yao, Quan-Hong

    2015-10-23

    To date, only bar/pat gene derived from Streptomyces has been used to generate the commercial PPT-resistant crops currently available in the market. The limited source of bar/pat gene is probably what has caused the decrease in PPT-tolerance, which has become the main concern of those involved in field management programs. Although glutamine synthetase (GS) is the target enzyme of PPT, little study has been reported about engineering PPT-resistant plants with GS gene. Then, the plant-optimized GS gene from Oryza sativa (OsGS1S) was chemically synthesized in the present study by PTDS to identify a GS gene for developing PPT-tolerant plants. However, OsGS1S cannot be directly used for developing PPT-tolerant plants because of its poor PPT-resistance. Thus, we performed DNA shuffling on OsGS1S, and one highly PPT-resistant mutant with mutations in four amino acids (A63E, V193A, T293A and R295K) was isolated after three rounds of DNA shuffling and screening. Among the four amino acids substitutions, only R295K was identified as essential in altering PPT resistance. The R295K mutation has also never been previously reported as an important residue for PPT resistance. Furthermore, the mutant gene has been transformed into Saccharomyces cerevisiae and Arabidopsis to confirm its potential in developing PPT-resistant crops.

  15. Cloning, expression, purification, crystallization and preliminary X-ray crystallographic analyses of threonyl-tRNA synthetase editing domain from Aeropyrum pernix

    International Nuclear Information System (INIS)

    The editing domain of threonyl-tRNA synthetase from the archaeon Aeropyrum pernix has been overexpressed, purified and crystallized. The crystal diffracted to a resolution of 1.66 Å. The proofreading function of aminoacyl-tRNA synthetases is crucial in maintaining the fidelity of protein synthesis. Most archaeal threonyl-tRNA synthetases (ThrRSs) possess a unique proofreading domain unrelated to their eukaryotic/bacterial counterpart. The crystal structure of this domain from the archaeon Pyrococcus abysii in complex with its cognate and noncognate substrate analogues had given insights into its catalytic and discriminatory mechanisms. To probe further into the mechanistic and evolutionary aspects of this domain, work has been extended to another archaeon Aeropyrum pernix. The organism possesses two proteins corresponding to threonyl-tRNA synthetase, i.e. ThrRS1 and ThrRS2, encoded by two different genes, thrS1 and thrS2, respectively. ThrRS1 is responsible for aminoacylation and ThrRS2 for proofreading activity. Here the purification, crystallization and preliminary X-ray crystallographic investigation of the N-terminal proofreading domain of ThrRS2 from A. pernix is reported. The crystals belong to either the P41212 or P43212 space group and consist of one monomer per asymmetric unit

  16. 大豆谷氨酰胺合成酶基因的分类及根瘤特异表达GmGS1β2基因功能的初步分析%Classification of Glutamine Synthetase Gene and Preliminary Functional Analysis of the Nodule-Predominantly Expressed Gene GmGS1β2 in Soybean

    Institute of Scientific and Technical Information of China (English)

    王晓波; 滕婉; 何雪; 童依平

    2013-01-01

    从Phytozome数据库中获得包括大豆在内的12种植物的谷氨酰胺合成酶(glutamine synthetase,GS)氨基酸序列,利用MEGA5.10软件进行多序列比对、构建进化树.进化分析表明,植物GS可以分成胞质型(GS1)和质体型(GS2)两大类,GS1可进一步分成分5个亚类,包括双子叶植物为主的Ⅰ、Ⅱ和Ⅲ亚类、低等植物类(Ⅳ)和单子叶植物类(Ⅴ).这5亚类中,第Ⅱ类是豆科植物特有的一类,大豆的4个GS1 (GmGS1β1/2和GmGS1γ1/2)属于该亚类;利用qPCR在大豆盛花期分析GS1基因的组织表达特异性,结果表明不同类型GmGS1基因在表达部位和表达丰度上存在较大差异,而同一类基因之间具有相似的表达规律;4个豆科植物特有的GS1基因在大豆根瘤中都有较高的表达量,其中位于大豆第18染色体上的GmGS1β2基因表达丰度最高;利用原核表达系统体外表达GmGS 1β2蛋白,诱导出分子量大小与理论预测值一致的目标蛋白,酶活性分析表明GmGS 1β2可以与底物发生催化反应,具有谷氨酰胺合成酶活性,推测该基因在大豆根瘤氮素同化代谢中具有重要作用.

  17. The Tomato MIXTA-Like Transcription Factor Coordinates Fruit Epidermis Conical Cell Development and Cuticular Lipid Biosynthesis and Assembly.

    Science.gov (United States)

    Lashbrooke, Justin; Adato, Avital; Lotan, Orfa; Alkan, Noam; Tsimbalist, Tatiana; Rechav, Katya; Fernandez-Moreno, Josefina-Patricia; Widemann, Emilie; Grausem, Bernard; Pinot, Franck; Granell, Antonio; Costa, Fabrizio; Aharoni, Asaph

    2015-12-01

    The epidermis of aerial plant organs is the primary source of building blocks forming the outer surface cuticular layer. To examine the relationship between epidermal cell development and cuticle assembly in the context of fruit surface, we investigated the tomato (Solanum lycopersicum) MIXTA-like gene. MIXTA/MIXTA-like proteins, initially described in snapdragon (Antirrhinum majus) petals, are known regulators of epidermal cell differentiation. Fruit of transgenically silenced SlMIXTA-like tomato plants displayed defects in patterning of conical epidermal cells. They also showed altered postharvest water loss and resistance to pathogens. Transcriptome and cuticular lipids profiling coupled with comprehensive microscopy revealed significant modifications to cuticle assembly and suggested SlMIXTA-like to regulate cutin biosynthesis. Candidate genes likely acting downstream of SlMIXTA-like included cytochrome P450s (CYPs) of the CYP77A and CYP86A subfamilies, LONG-CHAIN ACYL-COA SYNTHETASE2, GLYCEROL-3-PHOSPHATE SN-2-ACYLTRANSFERASE4, and the ATP-BINDING CASSETTE11 cuticular lipids transporter. As part of a larger regulatory network of epidermal cell patterning and L1-layer identity, we found that SlMIXTA-like acts downstream of SlSHINE3 and possibly cooperates with homeodomain Leu zipper IV transcription factors. Hence, SlMIXTA-like is a positive regulator of both cuticle and conical epidermal cell formation in tomato fruit, acting as a mediator of the tight association between fruit cutin polymer formation, cuticle assembly, and epidermal cell patterning.

  18. Elucidating the Pseudomonas aeruginosa Fatty Acid Degradation Pathway: Identification of Additional Fatty Acyl-CoA Synthetase Homologues

    OpenAIRE

    Zarzycki-Siek, Jan; Norris, Michael H.; Kang, Yun (Kenneth); Sun, Zhenxin; Bluhm, Andrew P.; McMillan, Ian A.; Hoang, Tung T.

    2013-01-01

    The fatty acid (FA) degradation pathway of Pseudomonas aeruginosa, an opportunistic pathogen, was recently shown to be involved in nutrient acquisition during BALB/c mouse lung infection model. The source of FA in the lung is believed to be phosphatidylcholine, the major component of lung surfactant. Previous research indicated that P. aeruginosa has more than two fatty acyl-CoA synthetase genes (fadD; PA3299 and PA3300), which are responsible for activation of FAs using ATP and coenzyme A. T...

  19. A Nonribosomal Peptide Synthetase with a Novel Domain Organization Is Essential for Siderophore Biosynthesis in Vibrio anguillarum

    OpenAIRE

    Di Lorenzo, Manuela; Poppelaars, Sophie; Stork, Michiel; Nagasawa, Maho; Tolmasky, Marcelo E.; Crosa, Jorge H.

    2004-01-01

    Anguibactin, a siderophore produced by Vibrio anguillarum, is synthesized via a nonribosomal peptide synthetase (NRPS) mechanism. We have identified a gene from the V. anguillarum plasmid pJM1 that encodes a 78-kDa NRPS protein termed AngM, which is essential in the biosynthesis of anguibactin. The predicted AngM amino acid sequence shows regions of homology to the consensus sequence for the peptidyl carrier protein (PCP) and the condensation (C) domains of NRPSs, and curiously, these two dom...

  20. Phosphoribosylpyrophosphate synthetase of Escherichia coli, Identification of a mutant enzyme

    DEFF Research Database (Denmark)

    Hove-Jensen, Bjarne; Nygaard, Per

    1982-01-01

    , stimulated the mutant enzyme. The activity of PRib-PP synthetase in crude extract was higher in the mutant than in the parent. When starved for purines an accumulation of PRib-PP was observed in the parent strain, while the pool decreased in the mutant. During pyrimidine starvation derepression of PRib....... Kinetic analysis of the mutant PRib-PP synthetase revealed an apparent Km for ATP and ribose 5-phosphate of 1.0 mM and 240 μM respectively, compared to 60 μM and 45 μM respectively for the wild-type enzyme. ADP, which inhibits the wild-type enzyme at a concentration of 0.5 mM ribose 5-phosphate...

  1. Aminoacyl-tRNA Synthetase Complexes in Evolution

    Directory of Open Access Journals (Sweden)

    Svitlana Havrylenko

    2015-03-01

    Full Text Available Aminoacyl-tRNA synthetases are essential enzymes for interpreting the genetic code. They are responsible for the proper pairing of codons on mRNA with amino acids. In addition to this canonical, translational function, they are also involved in the control of many cellular pathways essential for the maintenance of cellular homeostasis. Association of several of these enzymes within supramolecular assemblies is a key feature of organization of the translation apparatus in eukaryotes. It could be a means to control their oscillation between translational functions, when associated within a multi-aminoacyl-tRNA synthetase complex (MARS, and nontranslational functions, after dissociation from the MARS and association with other partners. In this review, we summarize the composition of the different MARS described from archaea to mammals, the mode of assembly of these complexes, and their roles in maintenance of cellular homeostasis.

  2. The aminoacyl-tRNA synthetases of Drosophila melanogaster

    OpenAIRE

    Lu, Jiongming; Marygold, Steven J; Gharib, Walid H; Suter, Beat

    2015-01-01

    Aminoacyl-tRNA synthetases (aaRSs) ligate amino acids to their cognate tRNAs, allowing them to decode the triplet code during translation. Through different mechanisms aaRSs also perform several non-canonical functions in transcription, translation, apoptosis, angiogenesis and inflammation. Drosophila has become a preferred system to model human diseases caused by mutations in aaRS, to dissect effects of reduced translation or non-canonical activities, and to study aminoacylation and translat...

  3. 湿地松左旋β-蒎烯合成酶基因PeTPS-(-)BPin的同源克隆及生物信息学分析%An Analysis of Cloning and Bioinformatics of Sinistral Beta Pinene Synthetase Gene PeTPS-(-) BPin in Pinus elliottii

    Institute of Scientific and Technical Information of China (English)

    雷蕾; 潘显强; 张露; 黄少伟; 赵衡; 易敏; 赖猛

    2015-01-01

    The sinistral beta pinene synthetase gene ( PeTPS⁃(⁃) BPin) was isolated from Pinus elliottii by the cDNA sequence of pinus such as loblolly pine. Sequence analysis indicated that the deduced protein se⁃quence of the PeTPS⁃(⁃) BPin shared 90% and 80 % of identity with the other Pinus and the other genera of pinaceae,respectively.And the similarities of the sequence with different TPS genes of gymnosperms were 70%,which had distant relationship to angiosperm.The PeTPS⁃(⁃)BPin in Pinus elliottii was labile,with a molecular weight of 71.74 ku,phosphorylation site 37,locating in the chloroplasts. There were 4 poikilo⁃coils and 24 α⁃helixes on biomolecular structures,and a cd00684 conserved domain on tertiary structure.Seven potential func⁃tional domains were searched in ELM,including a NDR cleavage site,two phosphopeptide ligands,a PDZ lig⁃and,a SH2 ligand and two Phosphorylation sites,respectively.ARR conservative domain existed in the 68 and 69 amino acid,it was surmised that the N⁃terminal on the second R of the RR conservative domain broke,and was combined with the substrates,which participated in the isomerization of the substrates.The DDxxD conser⁃vative domains appeared but the potential functional site could not be found in the 380~384 amino acid. The two predicted phosphorylation sites located at 302 and 623 amino acid.%通过火炬松等松属树种的cDNA序列同源克隆了湿地松的左旋β-蒎烯合成酶基因( PeTPS-(-) BPin),分析表明该基因与其他松属植物之间的同源性在90%以上,与松科其他属植物之间的同源性在80%以上。裸子植物不同萜烯合成酶基因( TPS)之间的同源性在70%以上。被子植物与裸子植物的TPS基因亲缘关系较远。左旋β-蒎烯合成酶的蛋白质分子式为C3197H4972N862O957S32,分子量为71.74 ku,带弱正电,为不稳定蛋白,易分解,含37个磷酸化位点,定位在叶绿体

  4. 叶酰聚谷氨酸合成酶基因在甲氨蝶呤对映体获得性耐药A549细胞株中的表达差异%Differential gene expression of folylpolyglutamate synthetase in cytoplasm and mitochondria in acquired methotrexate enantiomers resistant to lung cancer A549 cell lines

    Institute of Scientific and Technical Information of China (English)

    周红艳; 何晓东; 孙余婕; 凡任芝; 孙利; 沈佐君

    2011-01-01

    目的 研究不同甲氨蝶呤(MTX)对映体耐药与叶酰聚谷氨酸合成酶(FPGS)基因水平表达的关系.方法 用大剂量冲击递增结合低剂量持续诱导法诱导获得两组含不同构型15~55μmol/L浓度的MTX对映体[L-(+)-MTX和D-(-)-MTX]耐药的细胞系,细胞为人源非小细胞性肺癌A549细胞,用四甲基偶氮唑盐(MTT)法检测各细胞系的耐药指数;用实时荧光定量聚合酶链反应(RFQ-PCR)方法检测这两组各细胞系中胞质型FPGS(cFPGS)和线粒体型FPGS(mFPGS)基因的相对含量.结果 D-(-)-MTX耐药细胞组耐药指数高于L-(+)-MTX耐药细胞组(32.7±9.3比11.5±2.9,P<0.05),L-(+)-MTX/A549细胞系耐药指数均在5~15之间,为中度耐药,而D-(-)-MTX/A549细胞系耐药指数均>15,为高度耐药.在D-(-)-MTX和L-(+)-MTX两组耐药细胞系中,mFPGS表达水平仪在MTX为15 μmol/L时差异无统计学意义,在MTX其他各浓度点两组间差异均有统计学意义(25 μmol/L:2.3±0.9比1.3±0.7,35 μnol/L:2.6±0.3比1.1±0.9,45 μmol/L:1.4±0.8比1.0±1.0,55 μmol/L;1.0±0.2比0.2±0.1均P<0.05);cFPGS表达水平在MTX为15μmol/L时两组间差异也同样无统计学意义,在25~55 μmol/L浓度区间内D-(-)-MTX/A549细胞系的cFPGS表达与耐药指数呈现高度负相关(r=-0.95,P<0.05).结论 在A549细胞中MTX对映体初次剂量15 μmol/L冲击法诱导获得的对映体耐药与再次接受更大剂量(≥25 μmol/L)MTX诱导获得耐药的机制不同,D-(-)-MTX/A549耐药细胞系表现为更高的耐药性,提示临床使用MTX时应考虑该药物存在手性对映体问题.%Objective To investigate the relationship between the resistance of methotrexate (MTX) enantiomer and the gene expression levels of folylpolyglutamate synthetase (FPGS).Methods The cell lines of MTX enantiomer resistance from 15 -55 μmol/L were obtained when the A549 cell lines were exposed intermittently and progressively to an incremental dose of each MTX enantiomer.The resistant

  5. Co-purification of dihydrofolate synthetase and N10formyltetrahydropteroyldiglutamate synthetase from E. coli

    International Nuclear Information System (INIS)

    The enzymatic activities which add a single glutamate to dihydropteroate (H2Pte) and to N10formyltetrahydropteroylglutamate (N10formylH4PteGlu) remained at a constant ratio when various purification techniques were used, including ammonium sulfate fractionation, isoelectric focusing, polyacrylamide gel electrophoresis, and column chromatography on Sephadex G-100, DEAE-Sephadex, CM-Sephadex, ADP-Sepharose, N10formylfolate-agarose or matrix Gel Red-A. The best combination of these methods yielded 900-fold purified enzyme. However, the kinetic properties were dependent upon the substrate used. H2Pte was a noncompetitive inhibitor (Kii . 1.1 microM) of the utilization of N10formylH4PteGlu, but no inhibition was detected in the reciprocal experiment. Aminopterin was a competitive inhibitor (Kis . 370 microM) of the reaction with N10formylH4PteGlu but was not inhibitory with H2Pte as substrate. In the dihydrofolate synthetase reaction, in Tris-HCl, pH 8.9 with 50 mM KCl, the apparent Km values for glutamate and MgATP were 3.5 mM and 8.1 microM respectively. With N10formylH4PteGlu as substrate, these Km values were 1.2 mM and 80 microM. Since the two activities were not separated by protein purification procedures but exhibited different kinetic properties (including lack of reciprocal inhibition), the data suggest these reactions are catalyzed on independent sites of a common protein

  6. Turnover of bacterial glutamine synthetase: oxidative inactivation precedes proteolysis.

    Science.gov (United States)

    Levine, R L; Oliver, C N; Fulks, R M; Stadtman, E R

    1981-04-01

    We partially purified a preparation from Escherichia coli that proteolytically degrades the enzyme glutamine synthetase [L-glutamate:ammonia ligase (ADP-forming), EC 6.3.1.2]. The degradation is at least a two-step process. First, the glutamine synthetase undergoes an oxidative modification. This modification leads to loss of catalytic activity and also renders the protein susceptible to proteolytic attack in the second step. The oxidative step displays characteristics of a mixed-function oxidation, requiring both molecular oxygen and a reduced nucleotide. This step can also be catalyzed by a purified, mammalian cytochrome P-450 system, as well as by a model system consisting of ascorbic acid and oxygen. Catalase blocks this oxidative modification step. Thus, the overall process of proteolytic degradation can be observed only if care is taken to remove catalase activity from the extracts. The inactivation reaction is dependent on the state of adenylylation of the glutamine synthetase, suggesting that this a physiologically important reaction. If so, then mixed-function oxidases are now implicated in the process of intracellular protein turnover.

  7. Application of an Efficient Gene Targeting System Linking Secondary Metabolites to their Biosynthetic Genes in Aspergillus terreus

    Energy Technology Data Exchange (ETDEWEB)

    Guo, Chun-Jun; Knox, Benjamin P.; Sanchez, James F.; Chiang, Yi-Ming; Bruno, Kenneth S.; Wang, Clay C.

    2013-07-19

    Nonribosomal peptides (NRPs) are natural products biosynthesized by NRP synthetases. A kusA-, pyrG- mutant strain of Aspergillusterreus NIH 2624 was developed that greatly facilitated the gene targeting efficiency in this organism. Application of this tool allowed us to link four major types of NRP related secondary metabolites to their responsible genes in A. terreus. In addition, an NRP related melanin synthetase was also identified in this species.

  8. Expression of glutamine synthetase in balloon cells: a basis of their antiepileptic role?

    Science.gov (United States)

    Buccoliero, Anna Maria; Barba, Carmen; Giordano, Flavio; Baroni, Gianna; Genitori, Lorenzo; Guerrini, Renzo; Taddei, Gian Luigi

    2015-01-01

    Glutamine synthetase is an enzyme involved in the clearance of glutamate, the most potent excitatory neurotransmitter. We studied the immunohistochemical expression of glutamine synthetase in neocortical samples from 5 children who underwent surgery for pharmacoresistant epilepsy and a histological diagnosis of focal cortical dysplasia IIb. In all cases, balloon cells, but not dysmorphic neurons, were immunopositive for glutamine synthetase. This finding suggests that balloon cells can be involved in the neutralization of glutamate and play a protective anti-seizure role.

  9. Selective inhibition of type 2 fatty acid synthetase by the antibiotic thiolactomycin

    Energy Technology Data Exchange (ETDEWEB)

    Nishida, Ikuo; Kawaguchi, Akihiko; Yamada, Mitsuhiro (Tokyo Univ. (Japan). Faculty of Science)

    1984-03-01

    The antibiotic thiolactomycin inhibits the fatty acid synthesis from both (1-/sup 14/C)-acetate and (2/sup 14/C) malonyl-CoA of spinach leaves, developing castor bean endosperms and avocado mesocarp. On the other hand, fatty acid synthetases of Brevibacterium ammoniagenes and Corynebacterium glutamicum are much less sensitive to this antibiotic. As Hayashi et al. have indicated in their paper that thiolactomycin inhibits fatty acid synthetase of Escherichia coli but has little effect on the synthetases of yeast and rat liver, thiolactomycin is suggested to be a selective inhibitor of type 2 fatty acid synthetases.

  10. Selective inhibition of type 2 fatty acid synthetase by the antibiotic thiolactomycin

    International Nuclear Information System (INIS)

    The antibiotic thiolactomycin inhibits the fatty acid synthesis from both [1-14C]-acetate and [214C] malonyl-CoA of spinach leaves, developing castor bean endosperms and avocado mesocarp. On the other hand, fatty acid synthetases of Brevibacterium ammoniagenes and Corynebacterium glutamicum are much less sensitive to this antibiotic. As Hayashi et al. have indicated in their paper that thiolactomycin inhibits fatty acid synthetase of Escherichia coli but has little effect on the synthetases of yeast and rat liver, thiolactomycin is suggested to be a selective inhibitor of type 2 fatty acid synthetases. (author)

  11. Adenine nucleotides as allosteric effectors of pea seed glutamine synthetase.

    Science.gov (United States)

    Knight, T J; Langston-Unkefer, P J

    1988-08-15

    The effects of adenine nucleotides on pea seed glutamine synthetase (EC 6.3.1.2) activity were examined as a part of our investigation of the regulation of this octameric plant enzyme. Saturation curves for glutamine synthetase activity versus ATP with ADP as the changing fixed inhibitor were not hyperbolic; greater apparent Vmax values were observed in the presence of added ADP than the Vmax observed in the absence of ADP. Hill plots of data with ADP present curved upward and crossed the plot with no added ADP. The stoichiometry of adenine nucleotide binding to glutamine synthetase was examined. Two molecules of [gamma-32P]ATP were bound per subunit in the presence of methionine sulfoximine. These ATP molecules were bound at an allosteric site and at the active site. One molecule of either [gamma-32P]ATP or [14C]ADP bound per subunit in the absence of methionine sulfoximine; this nucleotide was bound at an allosteric site. ADP and ATP compete for binding at the allosteric site, although ADP was preferred. ADP binding to the allosteric site proceeded in two kinetic phases. A Vmax value of 1.55 units/mg was measured for glutamine synthetase with one ADP tightly bound per enzyme subunit; a Vmax value of 0.8 unit/mg was measured for enzyme with no adenine nucleotide bound at the allosteric site. The enzyme activation caused by the binding of ADP to the allosteric sites was preceded by a lag phase, the length of which was dependent on the ADP concentration. Enzyme incubated in 10 mM ADP bound approximately 4 mol of ADP/mol of native enzyme before activation was observed; the activation was complete when 7-8 mol of ADP were bound per mol of the octameric, native enzyme. The Km for ATP (2 mM) was not changed by ADP binding to the allosteric sites. ADP was a simple competitive inhibitor (Ki = 0.05 mM) of ATP for glutamine synthetase with eight molecules of ADP tightly bound to the allosteric sites of the octamer. Binding of ATP to the allosteric sites led to marked

  12. A sensing role of the glutamine synthetase in the nitrogen regulation network in Fusarium fujikuroi.

    Directory of Open Access Journals (Sweden)

    Dominik Wagner

    Full Text Available In the plant pathogenic ascomycete Fusarium fujikuroi the synthesis of several economically important secondary metabolites (SM depends on the nitrogen status of the cells. Of these SMs, gibberellin and bikaverin synthesis is subject to nitrogen catabolite repression (NCR and is therefore only executed under nitrogen starvation conditions. How the signal of available nitrogen quantity and quality is sensed and transmitted to transcription factors is largely unknown. Earlier work revealed an essential regulatory role of the glutamine synthetase (GS in the nitrogen regulation network and secondary metabolism as its deletion resulted in total loss of SM gene expression. Here we present extensive gene regulation studies of the wild type, the Δgln1 mutant and complementation strains of the gln1 deletion mutant expressing heterologous GS-encoding genes of prokaryotic and eukaryotic origin or 14 different F. fujikuroi gln1 copies with site-directed mutations. All strains were grown under different nitrogen conditions and characterized regarding growth, expression of NCR-responsive genes and biosynthesis of SM. We provide evidence for distinct roles of the GS in sensing and transducing the signals to NCR-responsive genes. Three site directed mutations partially restored secondary metabolism and GS-dependent gene expression, but not glutamine formation, demonstrating for the first time that the catalytic and regulatory roles of GS can be separated. The distinct mutant phenotypes show that the GS (1 participates in NH4 (+-sensing and transducing the signal towards NCR-responsive transcription factors and their subsequent target genes; (2 affects carbon catabolism and (3 activates the expression of a distinct set of non-NCR GS-dependent genes. These novel insights into the regulatory role of the GS provide fascinating perspectives for elucidating regulatory roles of GS proteins of different organism in general.

  13. Regulation of glutamine synthetase, aspartokinase, and total protein turnover in Klebsiella aerogenes.

    Science.gov (United States)

    Fulks, R M; Stadtman, E R

    1985-12-13

    When suspensions of Klebsiella aerogenes are incubated in a nitrogen-free medium there is a gradual decrease in the levels of acid-precipitable protein and of aspartokinase III (lysine-sensitive) and aspartokinase I (threonine-sensitive) activities. In contrast, the level of glutamine synthetase increases slightly and then remains constant. Under these conditions, the glutamine synthetase and other proteins continue to be synthesized as judged by the incorporation of [14C]leucine into the acid-precipitable protein fraction and into protein precipitated by anti-glutamine synthetase antibodies, by the fact that growth-inhibiting concentrations of chloramphenicol also inhibit the incorporation of [14C]leucine into protein and into protein precipitated by anti-glutamine synthetase antibody, and by the fact that chloramphenicol leads to acceleration in the loss of aspartokinases I and III and promotes a net decrease in the level of glutamine synthetase and its cross-reactive protein. The loss of aspartokinases I and III in cell suspensions is stimulated by glucose and is inhibited by 2,4-dinitrophenol. Glucose also stimulates the loss of aspartokinases and glutamine synthetase in the presence of chloramphenicol. Cell-free extracts of K. aerogenes catalyze rapid inactivation of endogenous glutamine synthetase as well as exogenously added pure glutamine synthetase. This loss of glutamine synthetase is not associated with a loss of protein that cross-reacts with anti-glutamine synthetase antibodies. The inactivation of glutamine synthetase in extracts is not due to adenylylation. It is partially prevented by sulfhydryl reagents, Mn2+, antimycin A, 2,4-dinitrophenol, EDTA, anaerobiosis and by dialysis. Following 18 h dialysis, the capacity of extracts to catalyze inactivation of glutamine synthetase is lost but can be restored by the addition of Fe2+ (or Ni2+) together with ATP (or other nucleoside di- and triphosphates. After 40-60 h dialysis Fe3+ together with NADH (but

  14. Effect of nitrate on activities and transcript levels of nitrate reductase and glutamine synthetase in rice

    Institute of Scientific and Technical Information of China (English)

    CAO Yun; FAN Xiao-Rong; SUN Shu-Bin; XU Guo-Hua; HU Jiang; SHEN Qi-Rong

    2008-01-01

    Real-time polymerase chain reaction analysis was used to compare the effect of NO-3 on the activities of nitrate reductase (NR) and glutamine synthetase (GS),and the transcript levels of two NR genes,OsNia1 and OsNia2,two cytceolic GS1 genes,OsGln1;1 and OsGln1;2,and one plastid GS2 gene OsGln2,in two rice (Oryza sativa L.) cultivars Nanguang (NG) and Yunjing (YJ).Both cultivars achieved greater biomass and higher total N concentration when grown in a mixed N supply than in sole NH+ nutrition.Supply of NO-3 increased NR activity in both leaves and roots.Expression of both NR genes was also substantially enhanced and transcript levels of OsNia2 were significantly higher than those of OsNia1.NO-3 also caused an increase in GS activity,but had a complex effect on the expression of the three GS genes.In roots,the OsGln1;1 transcript increased,but OsGln1;2 decreased.In leaves,NO-3 had no effect on the GS1 expression,but the transcript for OsGln2 increased both in the leaves and roots of rice with a mixed supply of N.These results suggested that the increase in GS activity might be a result of the complicated regulation of the various GS genes.In addition,the NO-3 induced increase of biomass,NR activity,GS activity,and the transcript levels of NR and GS genes were proportionally higher in NG than in YJ,indicating a stronger response of NG to NO-3 nutrition than YJ.

  15. R-loop induced stress response by second (p)ppGpp synthetase in Mycobacterium smegmatis: functional and domain interdependence.

    Science.gov (United States)

    Krishnan, Sushma; Petchiappan, Anushya; Singh, Albel; Bhatt, Apoorva; Chatterji, Dipankar

    2016-10-01

    Persistent R-loops lead to replicative stress due to RNA polymerase stalling and DNA damage. RNase H enzymes facilitate the organisms to survive in the hostile condition by removing these R-loops. MS_RHII-RSD was previously identified to be the second (p)ppGpp synthetase in Mycobacterium smegmatis. The unique presence of an additional RNase HII domain raises an important question regarding the significance of this bifunctional protein. In this report, we demonstrate its ability to hydrolyze R-loops in Escherichia coli exposed to UV stress. MS_RHII-RSD gene expression was upregulated under UV stress, and this gene deleted strain showed increased R-loop accumulation as compared to the wild type. The domains in isolation are known to be inactive, and the full length protein is required for its function. Domain interdependence studies using active site mutants reveal the necessity of a hexamer form with high alpha helical content. In previous studies, bacterial RNase type HI has been mainly implicated in R-loop hydrolysis, but in this study, the RNase HII domain containing protein showed the activity. The prospective of this differential RNase HII activity is discussed. This is the first report to implicate a (p)ppGpp synthetase protein in R-loop-induced stress response.

  16. Modulation of phenolic metabolism under stress conditions in a Lotus japonicus mutant lacking plastidic glutamine synthetase

    Directory of Open Access Journals (Sweden)

    Margarita eGarcía-Calderón

    2015-09-01

    Full Text Available This paper was aimed to investigate the possible implications of the lack of plastidic glutamine synthetase (GS2 in phenolic metabolism during stress responses in the model legume Lotus japonicus. Important changes in the transcriptome were detected in a GS2 mutant called Ljgln2-2, compared to the wild type, in response to two separate stress conditions, such as drought or the result of the impairment of the photorespiratory cycle. Detailed transcriptomic analysis showed that the biosynthesis of phenolic compounds was affected in the mutant plants in these two different types of stress situations. For this reason, the genes and metabolites related to this metabolic route were further investigated using a combined approach of gene expression analysis and metabolite profiling. A high induction of the expression of several genes for the biosynthesis of different branches of the phenolic biosynthetic pathway was detected by qRT-PCR. The extent of induction was always higher in Ljgln2-2, probably reflecting the higher stress levels present in this genotype. This was paralleled by accumulation of several kaempferol and quercetine glycosides, some of them described for the first time in L. japonicus, and of high levels of the isoflavonoid vestitol. The results obtained indicate that the absence of GS2 affects different aspects of phenolic metabolism in L .japonicus plants in response to stress.

  17. Nonribosomal peptide synthetase with a unique iterative-alternative-optional mechanism catalyzes amonabactin synthesis in Aeromonas.

    Science.gov (United States)

    Esmaeel, Qassim; Chevalier, Mickael; Chataigné, Gabrielle; Subashkumar, Rathinasamy; Jacques, Philippe; Leclère, Valérie

    2016-10-01

    Based on the exploration of data generated by genome sequencing, a bioinformatics approach has been chosen to identify the biosynthetic pathway of the siderophores produced by Aeromonas species. The amonabactins, considered as a virulence factor, represent a family of four variants of catechol peptidic siderophores containing Dhb, Lys, Gly, and an aromatic residue either Trp or Phe in a D-configuration. The synthesis operon is constituted of seven genes named amoCEBFAGH and is iron-regulated. The cluster includes genes encoding proteins involved in the synthesis and incorporation of the Dhb monomer, and genes encoding specific nonribosomal peptide synthetases, which are responsible for the building of the peptidic moiety. The amonabactin assembly line displays a still so far not described atypical mode of synthesis that is iterative, alternative, and optional. A disruption mutant in the adenylation domain of AmoG was unable to synthesize any amonabactin and to grow in iron stress conditions while a deletion of amoH resulted in the production of only two over the four forms. The amo cluster is widespread among most of the Aeromonas species, only few species produces the enterobactin siderophore. PMID:27531515

  18. Identification of the non-ribosomal peptide synthetase responsible for biosynthesis of the potential anti-cancer drug sansalvamide in Fusarium solani

    DEFF Research Database (Denmark)

    Romans Fuertes, Patricia; Søndergaard, Teis Esben; Sandmann, Manuela Ilse Helga;

    2016-01-01

    Sansalvamide is a cyclic pentadepsipeptide produced by Fusarium solani and has shown promising results as potential anti-cancer drug. The biosynthetic pathway has until now remained unidentified, but here we used an Agrobacterium tumefaciens- mediated transformation (ATMT) approach to generate...... knock-out mutants of two candidate non-ribosomal peptide synthetases (NRPS29 and NRPS30). Comparative studies of secondary metabolites in the two deletion mutants and wild type confirmed the absence of sansalvamide in the NRPS30 deletion mutant, implicating this synthetase in the biosynthetic pathway...... biosynthetic pathway. Using comparative bioinformatic analyses of the catalytic domains in the destruxin and sansalvamide NRPSs, we were able to propose a model for sansalvamide biosynthesis. Orthologues of the gene clusters were also identified in species from several other genera including Acremonium...

  19. Regulation of glutamine synthetase by regulatory protein PII in Klebsiella aerogenes mutants lacking adenylyltransferase.

    OpenAIRE

    Reuveny, Z; Foor, F; Magasanik, B

    1981-01-01

    A mutation of Klebsiella aerogenes causing production of an altered PII regulatory protein which stimulates overadenylylation of glutamine synthetase and also prevents its derepression was combined with mutations abolishing the activity of adenylyltransferase. The results support the idea that PII plays a role in the regulation of the level of glutamine synthetase which is independent of its interaction with adenylyltransferase.

  20. MS_RHII-RSD, a dual-function RNase HII-(p)ppGpp synthetase from Mycobacterium smegmatis.

    Science.gov (United States)

    Murdeshwar, Maya S; Chatterji, Dipankar

    2012-08-01

    In the noninfectious soil saprophyte Mycobacterium smegmatis, intracellular levels of the stress alarmones guanosine tetraphosphate and guanosine pentaphosphate, together termed (p)ppGpp, are regulated by the enzyme Rel(Msm). This enzyme consists of a single, bifunctional polypeptide chain that is capable of both synthesizing and hydrolyzing (p)ppGpp. The rel(Msm) knockout strain of M. smegmatis (Δrel(Msm)) is expected to show a (p)ppGpp null [(p)ppGpp(0)] phenotype. Contrary to this expectation, the strain is capable of synthesizing (p)ppGpp in vivo. In this study, we identify and functionally characterize the open reading frame (ORF), MSMEG_5849, that encodes a second functional (p)ppGpp synthetase in M. smegmatis. In addition to (p)ppGpp synthesis, the 567-amino-acid-long protein encoded by this gene is capable of hydrolyzing RNA·DNA hybrids and bears similarity to the conventional RNase HII enzymes. We have classified this protein as actRel(Msm) in accordance with the recent nomenclature proposed and have named it MS_RHII-RSD, indicating the two enzymatic activities present [RHII, RNase HII domain, originally identified as domain of unknown function 429 (DUF429), and RSD, RelA_SpoT nucleotidyl transferase domain, the SYNTH domain responsible for (p)ppGpp synthesis activity]. MS_RHII-RSD is expressed and is constitutively active in vivo and behaves like a monofunctional (p)ppGpp synthetase in vitro. The occurrence of the RNase HII and (p)ppGpp synthetase domains together on the same polypeptide chain is suggestive of an in vivo role for this novel protein as a link connecting the essential life processes of DNA replication, repair, and transcription to the highly conserved stress survival pathway, the stringent response.

  1. Increased hepatic glycogen synthetase and decreased phosphorylase in trained rats

    DEFF Research Database (Denmark)

    Galbo, H; Saugmann, P; Richter, Erik

    1979-01-01

    Rats were either physically trained by a 12 wk swimming program or were freely eating or weight matched, sedentary controls. Trained rats had a higher relative liver weight and total hepatic glycogen synthetase (EC 2.4.1.11) activity and a lower phosphorylase (EC 2.4.1.1) activity than the other...... groups of rats. These changes may partly explain the demonstrated training-induced increase in glucose tolerance. None of the findings could be ascribed to differences in foold intake or body weight....

  2. Secuenciación y clonación de los genes dihidrofolatoreductasa (dhfr) y dihidropteroatosintetasa (dhps) de la cepa RH y de 2 aislamientos de Toxoplasma gondii / Sequencing and cloning dihydrofolate reductase (dhfr) and dihydropteroate synthetase (dhps) genes of the RH reference strain and two isolates of Toxoplasma gondii

    OpenAIRE

    Cortés Cortés, Liliana Jazmín

    2012-01-01

    El presente trabajo tuvo por objetivo realizar la clonación y secuenciación de los genes dihidrofolatoreductasa (dhfr) y dihidropteroatosintetasa (dhps) de la cepa de referencia RH y de dos aislamientos de Toxoplasma gondii obtenidos a partir de líquido céfalo-raquídeo (LCR) de pacientes HIV positivos con toxoplasmosis cerebral. Se realizó la optimización de las técnicas de extracción del DNA parasitario y de la Reacción en Cadena de la Polimerasa (PCR), la secuenciación de los productos puri...

  3. Purification and properties of the dihydrofolate synthetase from Serratia indica

    International Nuclear Information System (INIS)

    The dihydrofolate synthetase (EC6.3.2.12) responsible for catalyzing the synthesis of dihydrofolic acid from dihydropteroic acid and L-glutamic acid was purified about 130-fold from extracts of Serratia indica IFO 3759 by ammonium sulfate fractionation, DEAE-Sephadex column chromatography, Sephadex G-200 gel filtration, and DEAE-cellulose column chromatography. The enzyme preparation obtained was shown to be homogeneous by DEAE-cellulose column chromatography and ultracentrifugal analysis. The sedimentation coefficient of this enzyme was 3.9 S, and the molecular weight was determined to be about 47,000 by Sephadex G-100. The optimum pH for the reaction was 9.0. The enzymatic reaction required dihydropteroate, L-glutamate and ATP as substrates, and Mg2+ and K+ as cofactors. γ-L-Glutamyl-L-glutamic acid cannot replace L-glutamic acid as the substrate. Neither pteroic acid nor tetrahydropteroic acid can be used as the substrate. ATP was partially replaced by ITP or GTP. The enzyme reaction was inhibited by the addition of ADP, but not by AMP. One mole of dihydrofolate, 1 mole of ADP and 1 mole of orthophosphate were produced from each 1 mole of dihydropteroic acid, L-glutamic acid, and ATP. These results suggest that the systematic name for the dihydrofolate synthetase is 7,8-dihydropteroate: L-glutamate ligase (ADP). (auth.)

  4. ß-Lysine discrimination by lysyl-tRNA synthetase

    DEFF Research Database (Denmark)

    Gilreath, Marla S; Roy, Hervé; Bullwinkle, Tammy J;

    2011-01-01

    Elongation factor P is modified with (R)-ß-lysine by the lysyl-tRNA synthetase (LysRS) paralog PoxA. PoxA specificity is orthogonal to LysRS, despite their high similarity. To investigate a- and ß-lysine recognition by LysRS and PoxA, amino acid replacements were made in the LysRS active site gui...... enantiomers of ß-lysine were substrates for tRNA aminoacylation by LysRS, which, together with the relaxed specificity of the A233S variant, suggest a possible means to develop systems for in vivo co-translational insertion of ß-amino acids.......Elongation factor P is modified with (R)-ß-lysine by the lysyl-tRNA synthetase (LysRS) paralog PoxA. PoxA specificity is orthogonal to LysRS, despite their high similarity. To investigate a- and ß-lysine recognition by LysRS and PoxA, amino acid replacements were made in the LysRS active site...

  5. Holocarboxylase synthetase deficiency pre and post newborn screening

    Directory of Open Access Journals (Sweden)

    Taraka R. Donti

    2016-06-01

    Full Text Available Holocarboxylase synthetase deficiency is an autosomal recessive disorder of biotin metabolism resulting in multiple carboxylase deficiency. The typical presentation described in the medical literature is of neonatal onset within hours to weeks of birth with emesis, hypotonia, lethargy, seizures, metabolic ketolactic acidosis, hyperammonemia, developmental delay, skin rash and alopecia. The condition is screened for by newborn screening (NBS tandem mass spectroscopy by elevated hydroxypentanoylcarnitine on dried blood spots. Urine organic acid profile may demonstrate elevated lactic, 3-OH isovaleric, 3-OH propionic, 3-MCC, methylcitric acids, and tiglylglycine consistent with loss of function of the above carboxylases. Here we describe a cohort of patients, 2 diagnosed pre-NBS and 3 post-NBS with broad differences in initial presentation and phenotype. In addition, prior to the advent of NBS, there are isolated reports of late-onset holocarboxylase synthetase deficiency in the medical literature, which describe patients diagnosed between 1 and 8 years of life, however to our knowledge there are no reports of late-onset HCLS being missed by NBS. Also we report two cases, each with novel pathogenic variants HCLS, diagnosed at age 3 years and 21 months respectively. The first patient had a normal newborn screen whilst the second had an abnormal newborn screen but was misdiagnosed as 3-methylcrotonylcarboxylase (3-MCC deficiency and subsequently lost to follow-up until they presented again with severe metabolic acidosis.

  6. Holocarboxylase synthetase deficiency pre and post newborn screening.

    Science.gov (United States)

    Donti, Taraka R; Blackburn, Patrick R; Atwal, Paldeep S

    2016-06-01

    Holocarboxylase synthetase deficiency is an autosomal recessive disorder of biotin metabolism resulting in multiple carboxylase deficiency. The typical presentation described in the medical literature is of neonatal onset within hours to weeks of birth with emesis, hypotonia, lethargy, seizures, metabolic ketolactic acidosis, hyperammonemia, developmental delay, skin rash and alopecia. The condition is screened for by newborn screening (NBS) tandem mass spectroscopy by elevated hydroxypentanoylcarnitine on dried blood spots. Urine organic acid profile may demonstrate elevated lactic, 3-OH isovaleric, 3-OH propionic, 3-MCC, methylcitric acids, and tiglylglycine consistent with loss of function of the above carboxylases. Here we describe a cohort of patients, 2 diagnosed pre-NBS and 3 post-NBS with broad differences in initial presentation and phenotype. In addition, prior to the advent of NBS, there are isolated reports of late-onset holocarboxylase synthetase deficiency in the medical literature, which describe patients diagnosed between 1 and 8 years of life, however to our knowledge there are no reports of late-onset HCLS being missed by NBS. Also we report two cases, each with novel pathogenic variants HCLS, diagnosed at age 3 years and 21 months respectively. The first patient had a normal newborn screen whilst the second had an abnormal newborn screen but was misdiagnosed as 3-methylcrotonylcarboxylase (3-MCC) deficiency and subsequently lost to follow-up until they presented again with severe metabolic acidosis. PMID:27114915

  7. Evidence for positive selection acting on microcystin synthetase adenylation domains in three cyanobacterial genera

    Directory of Open Access Journals (Sweden)

    Rouhiainen Leo

    2008-09-01

    Full Text Available Abstract Background Cyanobacteria produce a wealth of secondary metabolites, including the group of small cyclic heptapeptide hepatotoxins that constitutes the microcystin family. The enzyme complex that directs the biosynthesis of microcystin is encoded in a single large gene cluster (mcy. mcy genes have a widespread distribution among cyanobacteria and are likely to have an ancient origin. The notable diversity within some of the Mcy modules is generated through various recombination events including horizontal gene transfer. Results A comparative analysis of the adenylation domains from the first module of McyB (McyB1 and McyC in the microcystin synthetase complex was performed on a large number of microcystin-producing strains from the Anabaena, Microcystis and Planktothrix genera. We found no decisive evidence for recombination between strains from different genera. However, we detected frequent recombination events in the mcyB and mcyC genes between strains within the same genus. Frequent interdomain recombination events were also observed between mcyB and mcyC sequences in Anabaena and Microcystis. Recombination and mutation rate ratios suggest that the diversification of mcyB and mcyC genes is driven by recombination events as well as point mutations in all three genera. Sequence analysis suggests that generally the adenylation domains of the first domain of McyB and McyC are under purifying selection. However, we found clear evidence for positive selection acting on a number of amino acid residues within these adenylation domains. These include residues important for active site selectivity of the adenylation domain, strongly suggesting selection for novel microcystin variants. Conclusion We provide the first clear evidence for positive selection acting on amino acid residues involved directly in the recognition and activation of amino acids incorporated into microcystin, indicating that the microcystin complement of a given strain may

  8. Integrative Molecular Profiling Reveals Asparagine Synthetase Is a Target in Castration-Resistant Prostate Cancer

    Science.gov (United States)

    Sircar, Kanishka; Huang, Heng; Hu, Limei; Cogdell, David; Dhillon, Jasreman; Tzelepi, Vassiliki; Efstathiou, Eleni; Koumakpayi, Ismaël H.; Saad, Fred; Luo, Dijun; Bismar, Tarek A.; Aparicio, Ana; Troncoso, Patricia; Navone, Nora; Zhang, Wei

    2013-01-01

    The identification of new and effective therapeutic targets for the lethal, castration-resistant stage of prostate cancer (CRPC) has been challenging because of both the paucity of adequate frozen tissues and a lack of integrated molecular analysis. Therefore, in this study, we performed a genome-wide analysis of DNA copy number alterations from 34 unique surgical CRPC specimens and 5 xenografts, with matched transcriptomic profiling of 25 specimens. An integrated analysis of these data revealed that the asparagine synthetase (ASNS) gene showed a gain in copy number and was overexpressed at the transcript level. The overexpression of ASNS was validated by analyzing other public CRPC data sets. ASNS protein expression, as detected by reverse-phase protein lysate array, was tightly correlated with gene copy number. In addition, ASNS protein expression, as determined by IHC analysis, was associated with progression to a therapy-resistant disease state in TMAs that included 77 castration-resistant and 40 untreated prostate cancer patient samples. Knockdown of ASNS by small-interfering RNAs in asparagine-deprived media led to growth inhibition in both androgen-responsive (ie, LNCaP) and castration-resistant (ie, C4-2B) prostate cancer cell lines and in cells isolated from a CRPC xenograft (ie, MDA PCa 180-30). Together, our results suggest that ASNS is up-regulated in cases of CRPC and that depletion of asparagine using ASNS inhibitors will be a novel strategy for targeting CRPC cells. PMID:22245216

  9. A multiple aminoacyl-tRNA synthetase complex that enhances tRNA-aminoacylation in African trypanosomes.

    Science.gov (United States)

    Cestari, Igor; Kalidas, Savitha; Monnerat, Severine; Anupama, Atashi; Phillips, Margaret A; Stuart, Kenneth

    2013-12-01

    The genes for all cytoplasmic and potentially all mitochondrial aminoacyl-tRNA synthetases (aaRSs) were identified, and all those tested by RNA interference were found to be essential for the growth of Trypanosoma brucei. Some of these enzymes were localized to the cytoplasm or mitochondrion, but most were dually localized to both cellular compartments. Cytoplasmic T. brucei aaRSs were organized in a multiprotein complex in both bloodstream and procyclic forms. The multiple aminoacyl-tRNA synthetase (MARS) complex contained at least six aaRS enzymes and three additional non-aaRS proteins. Steady-state kinetic studies showed that association in the MARS complex enhances tRNA-aminoacylation efficiency, which is in part dependent on a MARS complex-associated protein (MCP), named MCP2, that binds tRNAs and increases their aminoacylation by the complex. Conditional repression of MCP2 in T. brucei bloodstream forms resulted in reduced parasite growth and infectivity in mice. Thus, association in a MARS complex enhances tRNA-aminoacylation and contributes to parasite fitness. The MARS complex may be part of a cellular regulatory system and a target for drug development. PMID:24126051

  10. Suppression of amber codons in Caulobacter crescentus by the orthogonal Escherichia coli histidyl-tRNA synthetase/tRNAHis pair.

    Science.gov (United States)

    Ko, Jae-hyeong; Llopis, Paula Montero; Heinritz, Jennifer; Jacobs-Wagner, Christine; Söll, Dieter

    2013-01-01

    While translational read-through of stop codons by suppressor tRNAs is common in many bacteria, archaea and eukaryotes, this phenomenon has not yet been observed in the α-proteobacterium Caulobacter crescentus. Based on a previous report that C. crescentus and Escherichia coli tRNA(His) have distinctive identity elements, we constructed E. coli tRNA(His) CUA, a UAG suppressor tRNA for C. crescentus. By examining the expression of three UAG codon- containing reporter genes (encoding a β-lactamase, the fluorescent mCherry protein, or the C. crescentus xylonate dehydratase), we demonstrated that the E. coli histidyl-tRNA synthetase/tRNA(His) CUA pair enables in vivo UAG suppression in C. crescentus. E. coli histidyl-tRNA synthetase (HisRS) or tRNA(His) CUA alone did not achieve suppression; this indicates that the E. coli HisRS/tRNA(His) CUA pair is orthogonal in C. crescentus. These results illustrate that UAG suppression can be achieved in C. crescentus with an orthogonal aminoacyl-tRNA synthetase/suppressor tRNA pair.

  11. Suppression of amber codons in Caulobacter crescentus by the orthogonal Escherichia coli histidyl-tRNA synthetase/tRNAHis pair.

    Directory of Open Access Journals (Sweden)

    Jae-hyeong Ko

    Full Text Available While translational read-through of stop codons by suppressor tRNAs is common in many bacteria, archaea and eukaryotes, this phenomenon has not yet been observed in the α-proteobacterium Caulobacter crescentus. Based on a previous report that C. crescentus and Escherichia coli tRNA(His have distinctive identity elements, we constructed E. coli tRNA(His CUA, a UAG suppressor tRNA for C. crescentus. By examining the expression of three UAG codon- containing reporter genes (encoding a β-lactamase, the fluorescent mCherry protein, or the C. crescentus xylonate dehydratase, we demonstrated that the E. coli histidyl-tRNA synthetase/tRNA(His CUA pair enables in vivo UAG suppression in C. crescentus. E. coli histidyl-tRNA synthetase (HisRS or tRNA(His CUA alone did not achieve suppression; this indicates that the E. coli HisRS/tRNA(His CUA pair is orthogonal in C. crescentus. These results illustrate that UAG suppression can be achieved in C. crescentus with an orthogonal aminoacyl-tRNA synthetase/suppressor tRNA pair.

  12. Antenatal and postnatal radiologic diagnosis of holocarboxylase synthetase deficiency: a systematic review

    Energy Technology Data Exchange (ETDEWEB)

    Bandaralage, Sahan P.S. [Gold Coast Hospital and Health Service, Southport, Queensland (Australia); Griffith University, School of Medicine, Southport, Queensland (Australia); Farnaghi, Soheil [Caboolture Hospital, Caboolture, Queensland (Australia); Dulhunty, Joel M.; Kothari, Alka [Redcliffe Hospital, Redcliffe, Queensland (Australia); The University of Queensland, School of Medicine, Herston, Queensland (Australia)

    2016-03-15

    Holocarboxylase synthetase deficiency results in impaired activation of enzymes implicated in glucose, fatty acid and amino acid metabolism. Antenatal imaging and postnatal imaging are useful in making the diagnosis. Untreated holocarboxylase synthetase deficiency is fatal, while antenatal and postnatal biotin supplementation is associated with good clinical outcomes. Although biochemical assays are required for definitive diagnosis, certain radiologic features assist in the diagnosis of holocarboxylase synthetase deficiency. To review evidence regarding radiologic diagnostic features of holocarboxylase synthetase deficiency in the antenatal and postnatal period. A systematic review of all published cases of holocarboxylase synthetase deficiency identified by a search of Pubmed, Scopus and Web of Science. A total of 75 patients with holocarboxylase synthetase deficiency were identified from the systematic review, which screened 687 manuscripts. Most patients with imaging (19/22, 86%) had abnormal findings, the most common being subependymal cysts, ventriculomegaly and intraventricular hemorrhage. Although the radiologic features of subependymal cysts, ventriculomegaly, intraventricular hemorrhage and intrauterine growth restriction may be found in the setting of other pathologies, these findings should prompt consideration of holocarboxylase synthetase deficiency in at-risk children. (orig.)

  13. Effect of Liver Damage and Hyperbaric Oxygenation on Glutamine Synthetase of Hepatocytes.

    Science.gov (United States)

    Savilov, P N; Yakovlev, V N

    2016-01-01

    Activity of glutamine synthetase in the hepatocytes of healthy animals and animals with chronic CCl4-induced hepatitis was studied on white mature female rats after liver resection (15-20% of organ weight) and hyperbaric oxygenation (3 atm, 50 min, 3 times). Surgically operated left and non-operated middle lobes of the liver were analyzed on day 3 after liver resection and exposure to hyperbaric oxygenation. On day 65 of CCl4 poisoning, activity of glutamine synthetase decreased in both lobes and did not recover on day 3 after toxin cessation. Liver resection under conditions of CCl4-induced hepatitis restored reduced activity of glutamine synthetase in both liver lobes to the normal level. In healthy rats, the increase in glutamine synthetase activity after liver resection was found only in the middle lobe of the liver. Hyperbaric oxygenation enhanced the stimulatory effect of liver resection on glutamine synthetase activity in hepatocytes during chronic CCl4-induced hepatitis. In healthy animals with liver resection, activity of glutamine synthetase did not change after hyperbaric oxygenation, while normally oxygenation inhibited glutamine synthetase activity.

  14. A novel tool for studying auxin-metabolism: the inhibition of grapevine indole-3-acetic acid-amido synthetases by a reaction intermediate analogue.

    Directory of Open Access Journals (Sweden)

    Christine Böttcher

    Full Text Available An important process for the regulation of auxin levels in plants is the inactivation of indole-3-acetic acid (IAA by conjugation to amino acids. The conjugation reaction is catalysed by IAA-amido synthetases belonging to the family of GH3 proteins. Genetic approaches to study the biological significance of these enzymes have been hampered by large gene numbers and a high degree of functional redundancy. To overcome these difficulties a chemical approach based on the reaction mechanism of GH3 proteins was employed to design a small molecule inhibitor of IAA-amido synthetase activity. Adenosine-5'-[2-(1H-indol-3-ylethyl]phosphate (AIEP mimics the adenylated intermediate of the IAA-conjugation reaction and was therefore proposed to compete with the binding of MgATP and IAA in the initial stages of catalysis. Two grapevine IAA-amido synthetases with different catalytic properties were chosen to test the inhibitory effects of AIEP in vitro. GH3-1 has previously been implicated in the grape berry ripening process and is restricted to two amino acid substrates, whereas GH3-6 conjugated IAA to 13 amino acids. AIEP is the most potent inhibitor of GH3 enzymes so far described and was shown to be competitive against MgATP and IAA binding to both enzymes with K(i-values 17-68-fold lower than the respective K(m-values. AIEP also exhibited in vivo activity in an ex planta test system using young grape berries. Exposure to 5-20 µM of the inhibitor led to decreased levels of the common conjugate IAA-Asp and reduced the accumulation of the corresponding Asp-conjugate upon treatment with a synthetic auxin. AIEP therefore represents a novel chemical probe with which to study IAA-amido synthetase function.

  15. Identification, Expression and IAA-Amide Synthetase Activity Analysis of Gretchen Hagen 3 in Papaya Fruit (Carica papaya L.) during Postharvest Process

    Science.gov (United States)

    Liu, Kaidong; Wang, Jinxiang; Li, Haili; Zhong, Jundi; Feng, Shaoxian; Pan, Yaoliang; Yuan, Changchun

    2016-01-01

    Auxin plays essential roles in plant development. Gretchen Hagen 3 (GH3) genes belong to a major auxin response gene family and GH3 proteins conjugate a range of acylsubstrates to alter the levels of hormones. Currently, the role of GH3 genes in postharvest physiological regulation of ripening and softening processes in papaya fruit is unclear. In this study, we identified seven CpGH3 genes in a papaya genome database. The CpGH3.1a, CpGH3.1b, CpGH3.5, CpGH3.6, and CpGH3.9 proteins were identified as indole-3-acetic acid (IAA)-specific amido synthetases. We analyzed the changes in IAA-amido synthetase activity using aspartate as a substrate for conjugation and found a large increase (over 5-fold) during the postharvest stages. Ascorbic acid (AsA) application can extend the shelf life of papaya fruit. Our data showed that AsA treatment regulates postharvest fruit maturation processes by promoting endogenous IAA levels. Our findings demonstrate the important role of GH3 genes in the regulation of auxin-associated postharvest physiology in papaya.

  16. Knockout mutants as a tool to identify the subunit composition of Arabidopsis glutamine synthetase isoforms.

    Science.gov (United States)

    Dragićević, Milan; Todorović, Slađana; Bogdanović, Milica; Filipović, Biljana; Mišić, Danijela; Simonović, Ana

    2014-06-01

    Glutamine synthetase (GS) is a key enzyme in nitrogen assimilation, which catalyzes the formation of glutamine from ammonia and glutamate. Plant GS isoforms are multimeric enzymes, recently shown to be decamers. The Arabidopsis genome encodes five cytosolic (GS1) proteins labeled as GLN1;1 through GLN1;5 and one chloroplastic (GS2) isoform, GLN2;0. However, as many as 11 GS activity bands were resolved from different Arabidopsis tissues by Native PAGE and activity staining. Western analysis showed that all 11 isoforms are composed exclusively of 40 kDa GS1 subunits. Of five GS1 genes, only GLN1;1, GLN1;2 and GLN1;3 transcripts accumulated to significant levels in vegetative tissues, indicating that only subunits encoded by these three genes produce the 11-band zymogram. Even though the GS2 gene also had significant expression, the corresponding activity was not detected, probably due to inactivation. To resolve the subunit composition of 11 active GS1 isoforms, homozygous knockout mutants deficient in the expression of different GS1 genes were selected from the progeny of T-DNA insertional SALK and SAIL lines. Comparison of GS isoenzyme patterns of the selected GS1 knockout mutants indicated that all of the detected isoforms consist of varying proportions of GLN1;1, GLN1;2 and GLN1;3 subunits, and that GLN1;1 and GLN1;3, as well as GLN1;2 and GLN1;3 and possibly GLN1;1 and GLN1;2 proteins combine in all proportions to form active homo- and heterodecamers.

  17. Treatment of renal colic by prostaglandin synthetase inhibitors and avafortan (analgesic antispasmodic).

    Science.gov (United States)

    el-Sherif, A E; Foda, R; Norlen, L J; Yahia, H

    1990-12-01

    In a study of the pain-relieving effect of 3 drugs commonly used to treat acute renal colic in this hospital, intravenous indomethacin and intramuscular diclofenac (prostaglandin synthetase inhibitors) were compared with intravenous Avafortan (analgesic antispasmodic). As first-line analgesics, prostaglandin synthetase inhibitors, if given intravenously, offer an effective alternative to Avafortan. Of 145 patients studied, 32 required a second injection for complete relief of pain. Administering a second dose of prostaglandin synthetase inhibitors resulted in equally significant pain relief rate even though the route was intramuscular. PMID:2265331

  18. Critical Evaluation of the Changes in Glutamine Synthetase Activity in Models of Cerebral Stroke.

    Science.gov (United States)

    Jeitner, Thomas M; Battaile, Kevin; Cooper, Arthur J L

    2015-12-01

    The following article addresses some seemingly paradoxical observations concerning cerebral glutamine synthetase in ischemia-reperfusion injury. In the brain, this enzyme is predominantly found in astrocytes and catalyzes part of the glutamine-glutamate cycle. Glutamine synthetase is also thought to be especially sensitive to inactivation by the oxygen- and nitrogen-centered radicals generated during strokes. Despite this apparent sensitivity, glutamine synthetase specific activity is elevated in the affected tissues during reperfusion. Given the central role of the glutamine-glutamate cycle in the brain, we sought to resolve these conflicting observations with the view of providing an alternative perspective for therapeutic intervention in stroke.

  19. Regulation of Angiogenesis by Aminoacyl-tRNA Synthetases

    Directory of Open Access Journals (Sweden)

    Adam C. Mirando

    2014-12-01

    Full Text Available In addition to their canonical roles in translation the aminoacyl-tRNA synthetases (ARSs have developed secondary functions over the course of evolution. Many of these activities are associated with cellular survival and nutritional stress responses essential for homeostatic processes in higher eukaryotes. In particular, six ARSs and one associated factor have documented functions in angiogenesis. However, despite their connection to this process, the ARSs are mechanistically distinct and exhibit a range of positive or negative effects on aspects of endothelial cell migration, proliferation, and survival. This variability is achieved through the appearance of appended domains and interplay with inflammatory pathways not found in prokaryotic systems. Complete knowledge of the non-canonical functions of ARSs is necessary to understand the mechanisms underlying the physiological regulation of angiogenesis.

  20. Oncogenic Myc Induces Expression of Glutamine Synthetase through Promoter Demethylation.

    Science.gov (United States)

    Bott, Alex J; Peng, I-Chen; Fan, Yongjun; Faubert, Brandon; Zhao, Lu; Li, Jinyu; Neidler, Sarah; Sun, Yu; Jaber, Nadia; Krokowski, Dawid; Lu, Wenyun; Pan, Ji-An; Powers, Scott; Rabinowitz, Joshua; Hatzoglou, Maria; Murphy, Daniel J; Jones, Russell; Wu, Song; Girnun, Geoffrey; Zong, Wei-Xing

    2015-12-01

    c-Myc is known to promote glutamine usage by upregulating glutaminase (GLS), which converts glutamine to glutamate that is catabolized in the TCA cycle. Here we report that in a number of human and murine cells and cancers, Myc induces elevated expression of glutamate-ammonia ligase (GLUL), also termed glutamine synthetase (GS), which catalyzes the de novo synthesis of glutamine from glutamate and ammonia. This is through upregulation of a Myc transcriptional target thymine DNA glycosylase (TDG), which promotes active demethylation of the GS promoter and its increased expression. Elevated expression of GS promotes cell survival under glutamine limitation, while silencing of GS decreases cell proliferation and xenograft tumor growth. Upon GS overexpression, increased glutamine enhances nucleotide synthesis and amino acid transport. These results demonstrate an unexpected role of Myc in inducing glutamine synthesis and suggest a molecular connection between DNA demethylation and glutamine metabolism in Myc-driven cancers.

  1. Astrocyte glutamine synthetase: pivotal in health and disease.

    Science.gov (United States)

    Rose, Christopher F; Verkhratsky, Alexei; Parpura, Vladimir

    2013-12-01

    The multifunctional properties of astrocytes signify their importance in brain physiology and neurological function. In addition to defining the brain architecture, astrocytes are primary elements of brain ion, pH and neurotransmitter homoeostasis. GS (glutamine synthetase), which catalyses the ATP-dependent condensation of ammonia and glutamate to form glutamine, is an enzyme particularly found in astrocytes. GS plays a pivotal role in glutamate and glutamine homoeostasis, orchestrating astrocyte glutamate uptake/release and the glutamate-glutamine cycle. Furthermore, astrocytes bear the brunt of clearing ammonia in the brain, preventing neurotoxicity. The present review depicts the central function of astrocytes, concentrating on the importance of GS in glutamate/glutamine metabolism and ammonia detoxification in health and disease.

  2. Bisphosphonic acids as effective inhibitors of Mycobacterium tuberculosis glutamine synthetase.

    Science.gov (United States)

    Kosikowska, Paulina; Bochno, Marta; Macegoniuk, Katarzyna; Forlani, Giuseppe; Kafarski, Paweł; Berlicki, Łukasz

    2016-12-01

    Inhibition of glutamine synthetase (GS) is one of the most promising strategies for the discovery of novel drugs against tuberculosis. Forty-three bisphosphonic and bis-H-phosphinic acids of various scaffolds, bearing aromatic substituents, were screened against recombinant GS from Mycobacterium tuberculosis. Most of the studied compounds exhibited activities in micromolar range, with N-(3,5-dichlorophenyl)-2-aminoethylidenebisphoshonic acid, N-(3,5-difluorophenyl)-2-aminoethylidene-bisphoshonic acid and N-(3,4-dichlorophenyl)-1-hydroxy-1,1-ethanebisphosphonic acid showing the highest potency with kinetic parameters similar to the reference compound - L-methionine-S-sulfoximine. Moreover, these inhibitors were found to be much more effective against pathogen enzyme than against the human ortholog. Thus, with the bone-targeting properties of the bisphosphonate compounds in mind, this activity/selectivity profile makes these compounds attractive agents for the treatment of bone tuberculosis.

  3. Common peptides study of aminoacyl-tRNA synthetases.

    Directory of Open Access Journals (Sweden)

    Assaf Gottlieb

    Full Text Available BACKGROUND: Aminoacyl tRNA synthetases (aaRSs constitute an essential enzyme super-family, providing fidelity of the translation process of mRNA to proteins in living cells. They are common to all kingdoms and are of utmost importance to all organisms. It is thus of great interest to understand the evolutionary relationships among them and underline signature motifs defining their common domains. RESULTS: We utilized the Common Peptides (CPs framework, based on extracted deterministic motifs from all aaRSs, to study family-specific properties. We identified novel aaRS-class related signatures that may supplement the current classification methods and provide a basis for identifying functional regions specific to each aaRS class. We exploited the space spanned by the CPs in order to identify similarities between aaRS families that are not observed using sequence alignment methods, identifying different inter-aaRS associations across different kingdom of life. We explored the evolutionary history of the aaRS families and evolutionary origins of the mitochondrial aaRSs. Lastly, we showed that prevalent CPs significantly overlap known catalytic and binding sites, suggesting that they have meaningful functional roles, as well as identifying a motif shared between aaRSs and a the Biotin-[acetyl-CoA carboxylase] synthetase (birA enzyme overlapping binding sites in both families. CONCLUSIONS: The study presents the multitude of ways to exploit the CP framework in order to extract meaningful patterns from the aaRS super-family. Specific CPs, discovered in this study, may play important roles in the functionality of these enzymes. We explored the evolutionary patterns in each aaRS family and tracked remote evolutionary links between these families.

  4. High cerebral guanidinoacetate and variable creatine concentrations in argininosuccinate synthetase and lyase deficiency : Implications for treatment?

    NARCIS (Netherlands)

    van Spronsen, F. J.; Reijngoud, D. J.; Verhoeven, N. M.; Soorani-Lunsing, R. J.; Jakobs, C.; Sijens, P. E.

    2006-01-01

    Cerebral creatine and guanidinoacetate and blood and urine metabolites were studied in four patients with argininosuccinate synthetase (ASS) or argininosuccinate lyase (ASL) deficiency receiving large doses of arginine. Urine and blood metabolites varied largely. Cerebral guanidinoacetate was increa

  5. Regulation of active site coupling in glutamine-dependent NAD[superscript +] synthetase

    Energy Technology Data Exchange (ETDEWEB)

    LaRonde-LeBlanc, Nicole; Resto, Melissa; Gerratana, Barbara; (Maryland)

    2009-05-21

    NAD{sup +} is an essential metabolite both as a cofactor in energy metabolism and redox homeostasis and as a regulator of cellular processes. In contrast to humans, Mycobacterium tuberculosis NAD{sup +} biosynthesis is absolutely dependent on the activity of a multifunctional glutamine-dependent NAD{sup +} synthetase, which catalyzes the ATP-dependent formation of NAD{sup +} at the synthetase domain using ammonia derived from L-glutamine in the glutaminase domain. Here we report the kinetics and structural characterization of M. tuberculosis NAD{sup +} synthetase. The kinetics data strongly suggest tightly coupled regulation of the catalytic activities. The structure, the first of a glutamine-dependent NAD{sup +} synthetase, reveals a homooctameric subunit organization suggesting a tight dependence of catalysis on the quaternary structure, a 40-{angstrom} intersubunit ammonia tunnel and structural elements that may be involved in the transfer of information between catalytic sites.

  6. Porcine 2', 5'-oligoadenylate synthetases inhibit Japanese encephalitis virus replication in vitro.

    Science.gov (United States)

    Zheng, Sheng; Zhu, Dan; Lian, Xue; Liu, Weiting; Cao, Ruibing; Chen, Puyan

    2016-05-01

    The 2', 5'-oligoadenylate synthetases (OAS) are antiviral proteins and several isoforms have been identified as flavivirus-resistance biomarkers in human and mouse. The expression kinetics and antiviral functions of porcine OAS family (OAS1, OAS2, and OASL) in PK-15 cells following infection by Japanese encephalitis virus (JEV) were evaluated in the present study. The endogenous expression of the three OAS genes was efficiently induced by IFN-α treatment in PK-15 cells. However, expression of pOAS1 and pOAS2 responded more quickly than pOASL. Infection by JEV also induced the expression of the pOAS isoforms, but at a significantly lower level than that observed following IFN-α stimulation. Transient overexpression of pOASL and pOAS1 inhibited JEV replication more efficiently than OAS2 overexpression. Interestingly, knockdown of pOAS2 expression by siRNA treatment led to the highest increase in JEV multiplication. Co-silencing of RNase L and each pOAS revealed that the anti-JEV function of pOAS1 and pOAS2 were RNase L dependent, while the antiviral activity of pOASL was not. In conclusion, all pOAS isoforms play a significant role in the response to JEV infection, and are differentially induced by different stimuli. The alternative pathways of antiviral activity stimulated by OASL require further study. PMID:26437676

  7. Arsenic and mercury tolerance and cadmium sensitivity in Arabidopsis plants expressing bacterial gamma-glutamylcysteine synthetase.

    Science.gov (United States)

    Li, Yujing; Dhankher, Om Parkash; Carreira, Laura; Balish, Rebecca S; Meagher, Richard B

    2005-06-01

    Cysteine sulfhydryl-rich peptide thiols are believed to play important roles in the detoxification of many heavy metals and metalloids such as arsenic, mercury, and cadmium in plants. The gamma-glutamylcysteine synthetase (gamma-ECS) catalyzes the synthesis of the dipeptidethiol gamma-glu-cys (gamma-EC), the first step in the biosynthesis of phytochelatins (PCs). Arabidopsis thaliana, engineered to express the bacterial gamma-ECS gene under control of a strong constitutive actin regulatory sequence (A2), expressed gamma-ECS at levels approaching 0.1% of total protein. In response to arsenic, mercury, and cadmium stresses, the levels of gamma-EC and its derivatives, glutathione (GSH) and PCs, were increased in the A2::ECS transgenic plants to three- to 20-fold higher concentrations than the increases that occurred in wild-type (WT). Compared to cadmium and mercury treatments, arsenic treatment most significantly increased levels of gamma-EC and PCs in both the A2::ECS transgenic and WT plants. The A2::ECS transgenic plants were highly resistant to arsenic and weakly resistant to mercury. Although exposure to cadmium produced three- to fivefold increases in levels of gamma-EC-related peptides in the A2::ECS lines, these plants were significantly more sensitive to Cd(II) than WT and trace levels of Cd(II) blocked resistance to arsenic and mercury. A few possible mechanisms for gamma-ECS-enhanced arsenic and mercury resistance and cadmium hypersensitivity are discussed.

  8. In vitro characterization of the NAD+ synthetase NadE1 from Herbaspirillum seropedicae.

    Science.gov (United States)

    Laskoski, Kerly; Santos, Adrian R S; Bonatto, Ana C; Pedrosa, Fábio O; Souza, Emanuel M; Huergo, Luciano F

    2016-05-01

    Nicotinamide adenine dinucleotide synthetase enzyme (NadE) catalyzes the amination of nicotinic acid adenine dinucleotide (NaAD) to form NAD(+). This reaction represents the last step in the majority of the NAD(+) biosynthetic routes described to date. NadE enzymes typically use either glutamine or ammonium as amine nitrogen donor, and the reaction is energetically driven by ATP hydrolysis. Given the key role of NAD(+) in bacterial metabolism, NadE has attracted considerable interest as a potential target for the development of novel antibiotics. The plant-associative nitrogen-fixing bacteria Herbaspirillum seropedicae encodes two putative NadE, namely nadE1 and nadE2. The nadE1 gene is linked to glnB encoding the signal transduction protein GlnB. Here we report the purification and in vitro characterization of H. seropedicae NadE1. Gel filtration chromatography analysis suggests that NadE1 is an octamer. The NadE1 activity was assayed in vitro, and the Michaelis-Menten constants for substrates NaAD, ATP, glutamine and ammonium were determined. Enzyme kinetic and in vitro substrate competition assays indicate that H. seropedicae NadE1 uses glutamine as a preferential nitrogen donor.

  9. Leishmania infantum Asparagine Synthetase A Is Dispensable for Parasites Survival and Infectivity.

    Science.gov (United States)

    Faria, Joana; Loureiro, Inês; Santarém, Nuno; Macedo-Ribeiro, Sandra; Tavares, Joana; Cordeiro-da-Silva, Anabela

    2016-01-01

    A growing interest in asparagine (Asn) metabolism has currently been observed in cancer and infection fields. Asparagine synthetase (AS) is responsible for the conversion of aspartate into Asn in an ATP-dependent manner, using ammonia or glutamine as a nitrogen source. There are two structurally distinct AS: the strictly ammonia dependent, type A, and the type B, which preferably uses glutamine. Absent in humans and present in trypanosomatids, AS-A was worthy of exploring as a potential drug target candidate. Appealingly, it was reported that AS-A was essential in Leishmania donovani, making it a promising drug target. In the work herein we demonstrate that Leishmania infantum AS-A, similarly to Trypanosoma spp. and L. donovani, is able to use both ammonia and glutamine as nitrogen donors. Moreover, we have successfully generated LiASA null mutants by targeted gene replacement in L. infantum, and these parasites do not display any significant growth or infectivity defect. Indeed, a severe impairment of in vitro growth was only observed when null mutants were cultured in asparagine limiting conditions. Altogether our results demonstrate that despite being important under asparagine limitation, LiAS-A is not essential for parasite survival, growth or infectivity in normal in vitro and in vivo conditions. Therefore we exclude AS-A as a suitable drug target against L. infantum parasites.

  10. Glutamine synthetase in Medicago truncatula, unveiling new secrets of a very old enzyme.

    Science.gov (United States)

    Seabra, Ana R; Carvalho, Helena G

    2015-01-01

    Glutamine synthetase (GS) catalyzes the first step at which nitrogen is brought into cellular metabolism and is also involved in the reassimilation of ammonium released by a number of metabolic pathways. Due to its unique position in plant nitrogen metabolism, GS plays essential roles in all aspects of plant development, from germination to senescence, and is a key component of nitrogen use efficiency (NUE) and plant yield. Understanding the mechanisms regulating GS activity is therefore of utmost importance and a great effort has been dedicated to understand how GS is regulated in different plant species. The present review summarizes exciting recent developments concerning the structure and regulation of GS isoenzymes, using the model legume Medicago truncatula. These include the understanding of the structural determinants of both the cytosolic and plastid located isoenzymes, the existence of a seed-specific GS gene unique to M. truncatula and closely related species and the discovery that GS isoenzymes are regulated by nitric oxide at the post-translational level. The data is discussed and integrated with the potential roles of the distinct GS isoenzymes within the whole plant context. PMID:26284094

  11. Molecular Evolution of Aminoacyl tRNA Synthetase Proteins in the Early History of Life

    Science.gov (United States)

    Fournier, Gregory P.; Andam, Cheryl P.; Alm, Eric J.; Gogarten, J. Peter

    2011-12-01

    Aminoacyl-tRNA synthetases (aaRS) consist of several families of functionally conserved proteins essential for translation and protein synthesis. Like nearly all components of the translation machinery, most aaRS families are universally distributed across cellular life, being inherited from the time of the Last Universal Common Ancestor (LUCA). However, unlike the rest of the translation machinery, aaRS have undergone numerous ancient horizontal gene transfers, with several independent events detected between domains, and some possibly involving lineages diverging before the time of LUCA. These transfers reveal the complexity of molecular evolution at this early time, and the chimeric nature of genomes within cells that gave rise to the major domains. Additionally, given the role of these protein families in defining the amino acids used for protein synthesis, sequence reconstruction of their pre-LUCA ancestors can reveal the evolutionary processes at work in the origin of the genetic code. In particular, sequence reconstructions of the paralog ancestors of isoleucyl- and valyl- RS provide strong empirical evidence that at least for this divergence, the genetic code did not co-evolve with the aaRSs; rather, both amino acids were already part of the genetic code before their cognate aaRSs diverged from their common ancestor. The implications of this observation for the early evolution of RNA-directed protein biosynthesis are discussed.

  12. Chitin synthetases in Candida albicans: a review on their subcellular distribution and biological function.

    Science.gov (United States)

    Martínez, J P; Gozalbo, D

    1994-09-01

    In the light of recent genetic advances, some results regarding chitin biosynthetic activities are reviewed in this paper. Genes coding for distinct enzymes displaying chitin synthetase activities have been characterized in Saccharomyces cerevisiae as well as in other fungal species including Candida albicans. Several activities seem to exist in the cells: (i) one zymogenic, located in cytoplasmic vesicles called chitosomes, although the presence of other types of vesicles with zymogenic activity cannot be completely discarded, and (ii) plasma membrane associated activities (the active enzyme and probably two distinct pools of zymogenic activity). Possible relationships between these activities, if any, remain to be determined. These multiplicity of enzymes is not surprising taking into account that chitin biosynthesis is required during very well defined temporal and spatial events of the cell cycle. A general repair function for one of the chitin biosynthetic activities is proposed as a possible salvage mechanism to warrant cell survival after wall damage has been caused, since chitin appears to be the most suitable polymer to carry out this function due to its particular physico-chemical properties.

  13. Diffuse glutamine synthetase overexpression restricted to areas of peliosis in a β-catenin-activated hepatocellular adenoma: a potential pitfall in glutamine synthetase interpretation.

    Science.gov (United States)

    Berry, Ryan S; Gullapalli, Rama R; Wu, Jin; Morris, Katherine; Hanson, Joshua A

    2014-08-01

    Hepatocellular adenomas have recently been classified into four subtypes based on molecular findings: hepatocyte nuclear factor 1α (HNF1α) inactivated, inflammatory/telangiectatic, β-catenin activated, and unclassifiable. β-catenin-activated adenomas have the potential for malignant transformation and are thus important to recognize. Diffuse glutamine synthetase immunohistochemical positivity has been shown to be a reliable surrogate marker for β-catenin activation, though variations in staining patterns may be difficult to interpret. We report a case of a peliotic adenoma that was morphologically consistent with a β-catenin wild-type hepatocellular adenoma but harbored a β-catenin mutation by molecular analysis. The tumor lacked nuclear β-catenin positivity and demonstrated a hitherto undescribed pattern of glutamine synthetase overexpression restricted to areas of peliosis with mostly negative staining in non-peliotic areas. This pattern was initially interpreted as physiologic and may represent a potential pitfall in glutamine synthetase interpretation.

  14. Regulation of the activity of the Bacillus licheniformis A5 glutamine synthetase.

    OpenAIRE

    Donohue, T J; Bernlohr, R W

    1981-01-01

    The regulation of glutamine synthetase activity by positive and negative effectors of enzyme activity singularly and in combinations was studied by using a homogeneous enzyme preparation from Bacillus licheniformis A5. Phosphorylribosyl pyrophosphate at concentrations greater than 2mM stimulated glutamine synthetase activity by approximately 70%. The concentration of phosphorylribosyl pyrophosphate required for half-maximal stimulation of enzyme activity was 0.4 mM. Results obtained from stud...

  15. Identification of the regulatory domain of the mammalian multifunctional protein CAD by the construction of an Escherichia coli hamster hybrid carbamyl-phosphate synthetase.

    Science.gov (United States)

    Liu, X; Guy, H I; Evans, D R

    1994-11-01

    Carbamyl-phosphate synthetases from different organisms have similar catalytic mechanisms and amino acid sequences, but their structural organization, sub-unit structure, and mode of regulation can be very different. Escherichia coli carbamyl-phosphate synthetase (CPSase), a monofunctional protein consisting of amido-transferase and synthetase subunits, is allosterically inhibited by UMP and activated by NH3, IMP, and ornithine. In contrast, mammalian CPSase II, part of the large multifunctional polypeptide, CAD, is inhibited by UTP and activated by 5-phosphoribosyl-1-pyrophosphate (PRPP). Previous photoaffinity labeling studies of E. coli CPSase showed that allosteric effectors bind near the carboxyl-terminal end of the synthetase subunit. This region of the molecule may be a regulatory subdomain common to all CPSases. An E. coli mammalian hybrid CPSase gene has been constructed and expressed in E. coli. The hybrid consists of the E. coli CPSase synthetase catalytic subdomains, residues 1-900 of the 1073 residue polypeptide, fused to the amino-terminal end of the putative 190-residue regulatory subdomain of the mammalian protein. The hybrid CPSase had normal activity, but was no longer regulated by the prokaryotic allosteric effectors. Instead, the glutamine- and ammonia-dependent CPSase activities and both ATP-dependent partial reactions were activated by PRPP and inhibited by UTP, indicating that the binding sites of both of these ligands are located in a regulatory region at the carboxyl-terminal end of the CPSase domain of CAD. The apparent ligand dissociation constants and extent of inhibition by UTP are similar in the hybrid and the wild type mammalian protein, but PRPP binds 4-fold more weakly to the hybrid. The allosteric ligands affected the steady state kinetic parameters of the hybrid differently, suggesting that while the linkage between the catalytic and regulatory subdomains has been preserved, there may be qualitative differences in interdomain

  16. Lengsin is a survivor of an ancient family of class I glutamine synthetases in eukaryotes that has undergone evolutionary re-engineering for a role in the vertebrate eye lens.

    OpenAIRE

    Wyatt, Keith; White, Helen E.; Wang, Luchun; Bateman, Orval A.; Slingsby, Christine; Orlova, Elena V.; Wistow, Graeme

    2006-01-01

    Lengsin is a member of the glutamine synthetase (GS) superfamily expressed in the vertebrate eye lens. While the GS homology domains of lengsin are well conserved in all species examined, the N-terminal domain shows evidence of dynamic evolutionary changes. Compared with zebrafish and chicken, most mammals have an additional exon in the lengsin gene corresponding to part of the N-terminal domain, however in human this is a non-functional pseudoexon. Lengsin belongs to the hitherto purely prok...

  17. Expression of glutamine synthetase in the mouse kidney: localization in multiple epithelial cell types and differential regulation by hypokalemia

    OpenAIRE

    Verlander, Jill W.; Chu, Diana; Lee, Hyun-wook; Handlogten, Mary E; Weiner, I. David

    2013-01-01

    Renal glutamine synthetase catalyzes the reaction of NH4+ with glutamate, forming glutamine and decreasing the ammonia available for net acid excretion. The purpose of the present study was to determine glutamine synthetase's specific cellular expression in the mouse kidney and its regulation by hypokalemia, a common cause of altered renal ammonia metabolism. Glutamine synthetase mRNA and protein were present in the renal cortex and in both the outer and inner stripes of the outer medulla. Im...

  18. Investigating arsenic susceptibility from a genetic perspective in Drosophila reveals a key role for glutathione synthetase.

    Science.gov (United States)

    Ortiz, Jorge G Muñiz; Opoka, Robert; Kane, Daniel; Cartwright, Iain L

    2009-02-01

    Chronic exposure to arsenic-contaminated drinking water can lead to a variety of serious pathological outcomes. However, differential responsiveness within human populations suggests that interindividual genetic variation plays an important role. We are using Drosophila to study toxic metal response pathways because of unrivalled access to varied genetic approaches and significant demonstrable overlap with many aspects of mammalian physiology and disease phenotypes. Genetic analysis (via chromosomal segregation and microsatellite marker-based recombination) of various wild-type strains exhibiting relative susceptibility or tolerance to the lethal toxic effects of arsenite identified a limited X-chromosomal region (16D-F) able to confer a differential response phenotype. Using an FRT-based recombination approach, we created lines harboring small, overlapping deficiencies within this region and found that relative arsenite sensitivity arose when the dose of the glutathione synthetase (GS) gene (located at 16F1) was reduced by half. Knockdown of GS expression by RNA interference (RNAi) in cultured S2 cells led to enhanced arsenite sensitivity, while GS RNAi applied to intact organisms dramatically reduced the concentration of food-borne arsenite compatible with successful growth and development. Our analyses, initially guided by observations on naturally occurring variants, provide genetic proof that an optimally functioning two-step glutathione (GSH) biosynthetic pathway is required in vivo for a robust defense against arsenite; the enzymatic implications of this are discussed in the context of GSH supply and demand under arsenite-induced stress. Given an identical pathway for human GSH biosynthesis, we suggest that polymorphisms in GSH biosynthetic genes may be an important contributor to differential arsenic sensitivity and exposure risk in human populations.

  19. Expression of glutamine synthetase in the mouse kidney: localization in multiple epithelial cell types and differential regulation by hypokalemia.

    Science.gov (United States)

    Verlander, Jill W; Chu, Diana; Lee, Hyun-Wook; Handlogten, Mary E; Weiner, I David

    2013-09-01

    Renal glutamine synthetase catalyzes the reaction of NH4+ with glutamate, forming glutamine and decreasing the ammonia available for net acid excretion. The purpose of the present study was to determine glutamine synthetase's specific cellular expression in the mouse kidney and its regulation by hypokalemia, a common cause of altered renal ammonia metabolism. Glutamine synthetase mRNA and protein were present in the renal cortex and in both the outer and inner stripes of the outer medulla. Immunohistochemistry showed glutamine synthetase expression throughout the entire proximal tubule and in nonproximal tubule cells. Double immunolabel with cell-specific markers demonstrated glutamine synthetase expression in type A intercalated cells, non-A, non-B intercalated cells, and distal convoluted tubule cells, but not in principal cells, type B intercalated cells, or connecting segment cells. Hypokalemia induced by feeding a nominally K+ -free diet for 12 days decreased glutamine synthetase expression throughout the entire proximal tubule and in the distal convoluted tubule and simultaneously increased glutamine synthetase expression in type A intercalated cells in both the cortical and outer medullary collecting duct. We conclude that glutamine synthetase is widely and specifically expressed in renal epithelial cells and that the regulation of expression differs in specific cell populations. Glutamine synthetase is likely to mediate an important role in renal ammonia metabolism.

  20. The predatory bacterium Bdellovibrio bacteriovorus aspartyl-tRNA synthetase recognizes tRNAAsn as a substrate.

    Directory of Open Access Journals (Sweden)

    Ariel Alperstein

    Full Text Available The predatory bacterium Bdellovibrio bacteriovorus preys on other Gram-negative bacteria and was predicted to be an asparagine auxotroph. However, despite encoding asparaginyl-tRNA synthetase and glutaminyl-tRNA synthetase, B. bacteriovorus also contains the amidotransferase GatCAB. Deinococcus radiodurans, and Thermus thermophilus also encode both of these aminoacyl-tRNA synthetases with GatCAB. Both also code for a second aspartyl-tRNA synthetase and use the additional aspartyl-tRNA synthetase with GatCAB to synthesize asparagine on tRNAAsn. Unlike those two bacteria, B. bacteriovorus encodes only one aspartyl-tRNA synthetase. Here we demonstrate the lone B. bacteriovorus aspartyl-tRNA synthetase catalyzes aspartyl-tRNAAsn formation that GatCAB can then amidate to asparaginyl-tRNAAsn. This non-discriminating aspartyl-tRNA synthetase with GatCAB thus provides B. bacteriovorus a second route for Asn-tRNAAsn formation with the asparagine synthesized in a tRNA-dependent manner. Thus, in contrast to a previous prediction, B. bacteriovorus codes for a biosynthetic route for asparagine. Analysis of bacterial genomes suggests a significant number of other bacteria may also code for both routes for Asn-tRNAAsn synthesis with only a limited number encoding a second aspartyl-tRNA synthetase.

  1. STING-Dependent 2'-5' Oligoadenylate Synthetase-Like Production Is Required for Intracellular Mycobacterium leprae Survival.

    Science.gov (United States)

    de Toledo-Pinto, Thiago Gomes; Ferreira, Anna Beatriz Robottom; Ribeiro-Alves, Marcelo; Rodrigues, Luciana Silva; Batista-Silva, Leonardo Ribeiro; Silva, Bruno Jorge de Andrade; Lemes, Robertha Mariana Rodrigues; Martinez, Alejandra Nóbrega; Sandoval, Felipe Galvan; Alvarado-Arnez, Lucia Elena; Rosa, Patrícia Sammarco; Shannon, Edward Joseph; Pessolani, Maria Cristina Vidal; Pinheiro, Roberta Olmo; Antunes, Sérgio Luís Gomes; Sarno, Euzenir Nunes; Lara, Flávio Alves; Williams, Diana Lynn; Ozório Moraes, Milton

    2016-07-15

    Cytosolic detection of nucleic acids elicits a type I interferon (IFN) response and plays a critical role in host defense against intracellular pathogens. Herein, a global gene expression profile of Mycobacterium leprae-infected primary human Schwann cells identified the genes differentially expressed in the type I IFN pathway. Among them, the gene encoding 2'-5' oligoadenylate synthetase-like (OASL) underwent the greatest upregulation and was also shown to be upregulated in M. leprae-infected human macrophage cell lineages, primary monocytes, and skin lesion specimens from patients with a disseminated form of leprosy. OASL knock down was associated with decreased viability of M. leprae that was concomitant with upregulation of either antimicrobial peptide expression or autophagy levels. Downregulation of MCP-1/CCL2 release was also observed during OASL knock down. M. leprae-mediated OASL expression was dependent on cytosolic DNA sensing mediated by stimulator of IFN genes signaling. The addition of M. leprae DNA enhanced nonpathogenic Mycobacterium bovis bacillus Calmette-Guerin intracellular survival, downregulated antimicrobial peptide expression, and increased MCP-1/CCL2 secretion. Thus, our data uncover a promycobacterial role for OASL during M. leprae infection that directs the host immune response toward a niche that permits survival of the pathogen. PMID:27190175

  2. Chitin synthetase in encysting Giardia lamblia and Entamoeba invadens

    International Nuclear Information System (INIS)

    Giardia lamblia (Gl) and Entamoeba invadens (Ei) are protozoan parasites with two morphologic stages in their life cycles. Motile trophozoites colonize the intestine of humans and reptiles respectively. Water resistant cysts, which can survive outside the host, transmit infection. In vitro cyst formation of Ei from trophozoites has been reported, and the authors have recently induced in vitro encystation of Gl. Although the cyst walls of both parasites contain chitin, it synthesis by encysting trophozoites has not been reported. The authors now show that encystation conditions greatly increase chitin synthetase (CS) specific activity (incorporation of 3H GlcNAc from UDP-GlcNAc into TCA-or alcohol-precipitable material). Extracts of encysting Gl incorporated 3.6 nmol/mg protein in 5 hr compared to < 0.005 in controls. Extracts of encysting Fi incorporated 4.8 n mol/mg protein, compared to 1.7 in the control. CS activity of both parasites requires preformed chitin. The Gl enzyme requires a reducing agent, is inhibited by digitonin and the CS inhibitors, polyoxin D and Nikkomycin, but not by tunicamycin. The product is digested by chitinase. Ei enzyme does not require a reducing agent and is stimulated by 1 mg/ml digitonin, but inhibited by higher concentrations. These studies demonstrate CS enzymes which may play important roles in encystation of Gl and Ei

  3. Versatility of acyl-acyl carrier protein synthetases.

    Science.gov (United States)

    Beld, Joris; Finzel, Kara; Burkart, Michael D

    2014-10-23

    The acyl carrier protein (ACP) requires posttranslational modification with a 4'-phosphopantetheine arm for activity, and this thiol-terminated modification carries cargo between enzymes in ACP-dependent metabolic pathways. We show that acyl-ACP synthetases (AasSs) from different organisms are able to load even, odd, and unnatural fatty acids onto E. coli ACP in vitro. Vibrio harveyi AasS not only shows promiscuity for the acid substrate, but also is active upon various alternate carrier proteins. AasS activity also extends to functional activation in living organisms. We show that exogenously supplied carboxylic acids are loaded onto ACP and extended by the E. coli fatty acid synthase, including unnatural fatty acid analogs. These analogs are further integrated into cellular lipids. In vitro characterization of four different adenylate-forming enzymes allowed us to disambiguate CoA-ligases and AasSs, and further in vivo studies show the potential for functional application in other organisms. PMID:25308274

  4. Chitin synthetase in encysting Giardia lamblia and Entamoeba invadens

    Energy Technology Data Exchange (ETDEWEB)

    Das, S.; Gillin, F.D.

    1987-05-01

    Giardia lamblia (Gl) and Entamoeba invadens (Ei) are protozoan parasites with two morphologic stages in their life cycles. Motile trophozoites colonize the intestine of humans and reptiles respectively. Water resistant cysts, which can survive outside the host, transmit infection. In vitro cyst formation of Ei from trophozoites has been reported, and the authors have recently induced in vitro encystation of Gl. Although the cyst walls of both parasites contain chitin, it synthesis by encysting trophozoites has not been reported. The authors now show that encystation conditions greatly increase chitin synthetase (CS) specific activity (incorporation of /sup 3/H GlcNAc from UDP-GlcNAc into TCA-or alcohol-precipitable material). Extracts of encysting Gl incorporated 3.6 nmol/mg protein in 5 hr compared to < 0.005 in controls. Extracts of encysting Fi incorporated 4.8 n mol/mg protein, compared to 1.7 in the control. CS activity of both parasites requires preformed chitin. The Gl enzyme requires a reducing agent, is inhibited by digitonin and the CS inhibitors, polyoxin D and Nikkomycin, but not by tunicamycin. The product is digested by chitinase. Ei enzyme does not require a reducing agent and is stimulated by 1 mg/ml digitonin, but inhibited by higher concentrations. These studies demonstrate CS enzymes which may play important roles in encystation of Gl and Ei.

  5. Adenine nucleotides as allosteric effectors of PEA seed glutamine synthetase

    Energy Technology Data Exchange (ETDEWEB)

    Unkefer, P.J.; Knight, T.J.

    1986-05-01

    The energy charge in the plant cell has been proposed as a regulator of glutamine synthetase (GS) activity. The authors have shown that 2.1 moles of ..gamma..(/sup 32/P)-ATP were bound/mole subunits of purified pea seed GS during complete inactivation with methionine sulfoximine. Since GS has one active site per subunit, the second binding site provides the potential for allosteric regulation of GS by adenine nucleotides. The authors have investigated the inhibition of the ATP-dependent synthetic activity by ADP and AMP. ADP and AMP cannot completely inhibit GS; but ATP does overcome the inhibition by ADP and AMP as shown by plots of % inhibition vs inhibitor concentration. This indicates that inhibition of GS by ADP or AMP is not completely due to competitive inhibition. In the absence of ADP or AMP, double reciprocal plots for ATP are linear below 10 mM; however, in the presence of either ADP or AMP these pots are curvilinear downwards. The ratio of Vm/asymptote is less than 1. The Hill number for ATP in the absence of ADP or AMP is 0.93 but decreases with increasing ADP or AMP to a value of 0.28 with 10 mM ADP. These data are consistent with negative cooperativity by ADP and AMP. Thus, as the ADP/ATP or AMP/ATP ratios are increased GS activity decreases. This is consistent with regulation of GS activity by energy charge in planta.

  6. Nitric oxide synthetase and Helicobacter pylori in patients undergoing appendicectomy.

    LENUS (Irish Health Repository)

    Kell, M R

    2012-02-03

    BACKGROUND: This study was designed to determine whether Helicobacter pylori forms part of the normal microenvironment of the appendix, whether it plays a role in the pathogenesis of acute appendicitis, and whether it is associated with increased expression of inducible nitric oxide synthetase (iNOS) in appendicular macrophages. METHODS: Serology for H. pylori was performed on 51 consecutive patients undergoing emergency appendicectomy. Appendix samples were tested for urease activity, cultured and stained for H. pylori, graded according to the degree of inflammatory infiltrate, and probed immunohistochemically for iNOS expression. RESULTS: The mean age of the patients was 21 (range 7-51) years. Seventeen patients (33 per cent) were seropositive for H. pylori but no evidence of H. pylori was found in any appendix specimen. However, an enhanced inflammatory cell infiltration was observed in seropositive patients (P < 0.04) and the expression of macrophage iNOS in the mucosa of normal and inflamed appendix specimens was increased (P < 0.01). CONCLUSION: H. pylori does not colonize the appendix and is unlikely to be a pathogenic stimulus for appendicitis. Priming effects on mucosal immunology downstream from the foregut may occur after infection with H. pylori.

  7. A survey of NRPS genes from Planktothrix in Lake Kolbotnvannet

    OpenAIRE

    Ballestad, Hanne

    2008-01-01

    Lake Kolbotnvannet is dominated by the Cyanobacteria Planktothrix. Cyanobacteria produce oligopeptides by nonribosomal peptide synthetases (NRPS), which have unknown biological functions. NRPS genes encoding the NRPS enzymes producing two oligopeptides, microcystin and cyanopeptolin, have been studied in this thesis. These genes have been used as markers for studying recombination events and subpopulation structure of Planktothrix strains in Lake Kolbotnvannet. DNA isolation, amplification a...

  8. Effect of estrogen administration on rat liver 2-5A synthetase activity.

    Science.gov (United States)

    Smekens, M; Dumont, J E; Degeyter, A; Galand, P

    1986-08-01

    Interferon-induced 2-5A synthetase is also present in various cells and tissues in the absence of any interferon treatment. The activity of this enzyme, which synthesizes a series of oligoadenylates, ppp(A2'p)n5'A (collectively referred to as 2-5A), was previously shown to vary with the growth status of liver tissue i.e., it decreased before and during the peak of DNA synthesis activity induced in rat liver by a two third hepatectomy. In the course of studies aimed at testing the hypothesis that 2-5A synthetase activity might exert negative control on normal cell growth and multiplication, we show here that a treatment of ovariectomized rats with a single dose of estradiol-17beta (100 micrograms/100 g body weight) induced a transient increase in the [3H]thymidine labelling index in the liver after 24 h and markedly decreased the 2-5A synthetase activity. A time course study revealed that 2-5A synthetase activity started to decrease after 3 h, reaching a minimal value (10% of the control level) after 12 h, then slowly increased to come back to control level at 48 h. These results, together with our similar data on regenerating liver, suggest that low 2-5A synthetase activity is permissive for acquisition of proliferative 'competence' by G0 cells. PMID:3730433

  9. Characterization of arachidonate 5-lipoxygenase and leukotriene A4 synthetase from RBL-1 cells

    International Nuclear Information System (INIS)

    5-lipoxygenase (LO) and leukotriene (LT) A4 synthetase from RBL-1 high speed (105,000 x g for 60 min) supernatants were partially purified by protein-high performance liquid chromatography (HPLC) and characterized in detail. The partially purified preparation contained only 5-LO and LTA4 synthetase and was isolated from 12-LO, peroxidase and LTA4 hydrolase activities. Reaction products were separated by reversed phase HPLC and quantitated by absorption spectrophotometry and radiochemical detection. The enzyme preparation rapidly converted [14C]arachidonate to [14C]5-hydroperoxyeicosatetraenoic acid (HPETE) and [14C]5,12-dihydroperoxyeicosatetraenoic acids (diHETEs). The 5,12-diHETEs were primarily non-enzymatic breakdown products of LTA4 (e.g., 6-trans-LTB4 and 6-trans-12-epi-LTB4). Both the 5-LO and LTA4 synthetase activities were Ca2+- and ATP-dependent. For both enzyme activities, the CA2+ stimulation required the presence of ATP. The fatty acid hydroperoxides, 5-,12-, and 15-HPETE, both stimulated ([ 3 μM]) 5-LO and LTA4 synthetase activities. The rapid isolation and subsequent characterization of 5-LO and LTA4 synthetase provide the bases for the further understanding of the role of the LO pathway in biological processes

  10. The effect of glial glutamine synthetase inhibition on recognition and temporal memories in the rat.

    Science.gov (United States)

    Kant, Deepika; Tripathi, Shweta; Qureshi, Munazah F; Tripathi, Shweta; Pandey, Swati; Singh, Gunjan; Kumar, Tankesh; Mir, Fayaz A; Jha, Sushil K

    2014-02-01

    The glutamate neurotransmitter is intrinsically involved in learning and memory. Glial glutamine synthetase enzyme synthesizes glutamine, which helps maintain the optimal neuronal glutamate level. However, the role of glutamine synthetase in learning and memory remains unclear. Using associative trace learning task, we investigated the effects of methionine sulfoximine (MSO) (glutamine synthetase inhibitor) on recognition and temporal memories. MSO and vehicle were injected (i.p.) three hours before training in separate groups of male Wistar rats (n=11). Animals were trained to obtain fruit juice after following a set of sequential events. Initially, house-light was presented for 15s followed by 5s trace interval. Thereafter, juice was given for 20s followed by 20s inter-presentation interval. A total of 75 presentations were made over five sessions during the training and testing periods. The average number of head entries to obtain juice per session and during individual phases at different time intervals was accounted as an outcome measure of recognition and temporal memories. The total head entries in MSO and vehicle treated animals were comparable on training and testing days. However, it was 174.90% (p=0.08), 270.61% (pGlutamine synthetase inhibition did not induce recognition memory deficit, while temporal memory was altered, suggesting that glutamine synthetase modulates some aspects of mnemonic processes.

  11. Glutamine Synthetase Sensitivity to Oxidative Modification during Nutrient Starvation in Prochlorococcus marinus PCC 9511.

    Science.gov (United States)

    Gómez-Baena, Guadalupe; Domínguez-Martín, María Agustina; Donaldson, Robert P; García-Fernández, José Manuel; Diez, Jesús

    2015-01-01

    Glutamine synthetase plays a key role in nitrogen metabolism, thus the fine regulation of this enzyme in Prochlorococcus, which is especially important in the oligotrophic oceans where this marine cyanobacterium thrives. In this work, we studied the metal-catalyzed oxidation of glutamine synthetase in cultures of Prochlorococcus marinus strain PCC 9511 subjected to nutrient limitation. Nitrogen deprivation caused glutamine synthetase to be more sensitive to metal-catalyzed oxidation (a 36% increase compared to control, non starved samples). Nutrient starvation induced also a clear increase (three-fold in the case of nitrogen) in the concentration of carbonyl derivatives in cell extracts, which was also higher (22%) upon addition of the inhibitor of electron transport, DCMU, to cultures. Our results indicate that nutrient limitations, representative of the natural conditions in the Prochlorococcus habitat, affect the response of glutamine synthetase to oxidative inactivating systems. Implications of these results on the regulation of glutamine synthetase by oxidative alteration prior to degradation of the enzyme in Prochlorococcus are discussed.

  12. Interdomain and Intermodule Organization in Epimerization Domain Containing Nonribosomal Peptide Synthetases.

    Science.gov (United States)

    Chen, Wei-Hung; Li, Kunhua; Guntaka, Naga Sandhya; Bruner, Steven D

    2016-08-19

    Nonribosomal peptide synthetases are large, complex multidomain enzymes responsible for the biosynthesis of a wide range of peptidic natural products. Inherent to synthetase chemistry is the thioester templated mechanism that relies on protein/protein interactions and interdomain dynamics. Several questions related to structure and mechanism remain to be addressed, including the incorporation of accessory domains and intermodule interactions. The inclusion of nonproteinogenic d-amino acids into peptide frameworks is a common and important modification for bioactive nonribosomal peptides. Epimerization domains, embedded in nonribosomal peptide synthetases assembly lines, catalyze the l- to d-amino acid conversion. Here we report the structure of the epimerization domain/peptidyl carrier protein didomain construct from the first module of the cyclic peptide antibiotic gramicidin synthetase. Both holo (phosphopantethiene post-translationally modified) and apo structures were determined, each representing catalytically relevant conformations of the two domains. The structures provide insight into domain-domain recognition, substrate delivery during the assembly line process, in addition to the structural organization of homologous condensation domains, canonical players in all synthetase modules. PMID:27294598

  13. Regulation of the activity of the Bacillus licheniformis A5 glutamine synthetase.

    Science.gov (United States)

    Donohue, T J; Bernlohr, R W

    1981-10-01

    The regulation of glutamine synthetase activity by positive and negative effectors of enzyme activity singularly and in combinations was studied by using a homogeneous enzyme preparation from Bacillus licheniformis A5. Phosphorylribosyl pyrophosphate at concentrations greater than 2mM stimulated glutamine synthetase activity by approximately 70%. The concentration of phosphorylribosyl pyrophosphate required for half-maximal stimulation of enzyme activity was 0.4 mM. Results obtained from studies of fractional inhibition of glutamine synthetase activity were consistent with the presence of one allosteric site for glutamine binding (apparent I0.5, 2.2mM) per active enzyme unit at a glutamate concentration of 50 mM. At a glutamate concentration of 30 mM or less, the data were consistent with the enzyme containing two binding sites for glutamine (one of which was an allosteric site with an apparent I0.5 of 0.4 mM). Bases on an analysis of the response of glutamine synthetase activity to positive and negative effectors in vitro and to the intracellular concentration of these effectors in vivo, the primary modulators of glutamine synthetase activity in B. licheniformis A5 appear to be glutamine and alanine (apparent I0.5, 5.2mM). PMID:6169702

  14. Glutamine Synthetase Sensitivity to Oxidative Modification during Nutrient Starvation in Prochlorococcus marinus PCC 9511.

    Science.gov (United States)

    Gómez-Baena, Guadalupe; Domínguez-Martín, María Agustina; Donaldson, Robert P; García-Fernández, José Manuel; Diez, Jesús

    2015-01-01

    Glutamine synthetase plays a key role in nitrogen metabolism, thus the fine regulation of this enzyme in Prochlorococcus, which is especially important in the oligotrophic oceans where this marine cyanobacterium thrives. In this work, we studied the metal-catalyzed oxidation of glutamine synthetase in cultures of Prochlorococcus marinus strain PCC 9511 subjected to nutrient limitation. Nitrogen deprivation caused glutamine synthetase to be more sensitive to metal-catalyzed oxidation (a 36% increase compared to control, non starved samples). Nutrient starvation induced also a clear increase (three-fold in the case of nitrogen) in the concentration of carbonyl derivatives in cell extracts, which was also higher (22%) upon addition of the inhibitor of electron transport, DCMU, to cultures. Our results indicate that nutrient limitations, representative of the natural conditions in the Prochlorococcus habitat, affect the response of glutamine synthetase to oxidative inactivating systems. Implications of these results on the regulation of glutamine synthetase by oxidative alteration prior to degradation of the enzyme in Prochlorococcus are discussed. PMID:26270653

  15. Glutamine Synthetase Sensitivity to Oxidative Modification during Nutrient Starvation in Prochlorococcus marinus PCC 9511.

    Directory of Open Access Journals (Sweden)

    Guadalupe Gómez-Baena

    Full Text Available Glutamine synthetase plays a key role in nitrogen metabolism, thus the fine regulation of this enzyme in Prochlorococcus, which is especially important in the oligotrophic oceans where this marine cyanobacterium thrives. In this work, we studied the metal-catalyzed oxidation of glutamine synthetase in cultures of Prochlorococcus marinus strain PCC 9511 subjected to nutrient limitation. Nitrogen deprivation caused glutamine synthetase to be more sensitive to metal-catalyzed oxidation (a 36% increase compared to control, non starved samples. Nutrient starvation induced also a clear increase (three-fold in the case of nitrogen in the concentration of carbonyl derivatives in cell extracts, which was also higher (22% upon addition of the inhibitor of electron transport, DCMU, to cultures. Our results indicate that nutrient limitations, representative of the natural conditions in the Prochlorococcus habitat, affect the response of glutamine synthetase to oxidative inactivating systems. Implications of these results on the regulation of glutamine synthetase by oxidative alteration prior to degradation of the enzyme in Prochlorococcus are discussed.

  16. Possible role of glutamine synthetase of the prokaryotic type (GSI-like) in nitrogen signaling in Medicago truncatula.

    Science.gov (United States)

    Silva, Liliana S; Seabra, Ana R; Leitão, José N; Carvalho, Helena G

    2015-11-01

    Genes containing domains related to glutamine synthetase of the prokaryotic type (GSI-like) are widespread in higher plants, but their function is currently unknown. To gain insights into the possible role of GSI-like proteins, we characterized the GSI-like gene family of Medicago truncatula and investigated the functionality of the encoded proteins. M. truncatula contains two-expressed GSI-like genes, MtGSIa and MtGSIb, encoding polypeptides of 454 and 453 amino acids, respectively. Heterologous complementation assays of a bacterial glnA mutant indicate that the proteins are not catalytically functional for glutamine synthesis. Gene expression was investigated by qRT-PCR and western blot analysis in different organs of the plant and under different nitrogen (N) regimes, revealing that both genes are preferentially expressed in roots and root nodules, and that their expression is influenced by the N-status of the plant. Analysis of transgenic plants expressing MtGSI-like-promoter-gusA fusion, indicate that the two genes are strongly expressed in the root pericycle, and interestingly, the expression is enhanced at the sites of nodule emergence being particularly strong in specific cells located in front of the protoxylem poles. Taken together, the results presented here support a role of GSI-like proteins in N sensing and/or signaling, probably operating at the interface between perception of the N-status and the developmental processes underlying both root nodule and lateral root formation. This study indicates that GSI-like genes may represent a novel class of molecular players of the N-mediated signaling events.

  17. Peptide markers of aminoacyl tRNA synthetases facilitate taxa counting in metagenomic data

    Directory of Open Access Journals (Sweden)

    Persi Erez

    2012-02-01

    Full Text Available Abstract Background Taxa counting is a major problem faced by analysis of metagenomic data. The most popular method relies on analysis of 16S rRNA sequences, but some studies employ also protein based analyses. It would be advantageous to have a method that is applicable directly to short sequences, of the kind extracted from samples in modern metagenomic research. This is achieved by the technique proposed here. Results We employ specific peptides, deduced from aminoacyl tRNA synthetases, as markers for the occurrence of single genes in data. Sequences carrying these markers are aligned and compared with each other to provide a lower limit for taxa counts in metagenomic data. The method is compared with 16S rRNA searches on a set of known genomes. The taxa counting problem is analyzed mathematically and a heuristic algorithm is proposed. When applied to genomic contigs of a recent human gut microbiome study, the taxa counting method provides information on numbers of different species and strains. We then apply our method to short read data and demonstrate how it can be calibrated to cope with errors. Comparison to known databases leads to estimates of the percentage of novelties, and the type of phyla involved. Conclusions A major advantage of our method is its simplicity: it relies on searching sequences for the occurrence of just 4000 specific peptides belonging to the S61 subgroup of aaRS enzymes. When compared to other methods, it provides additional insight into the taxonomic contents of metagenomic data. Furthermore, it can be directly applied to short read data, avoiding the need for genomic contig reconstruction, and taking into account short reads that are otherwise discarded as singletons. Hence it is very suitable for a fast analysis of next generation sequencing data.

  18. Enzymatically active 2',5'-oligoadenylate synthetases are widely distributed among Metazoa, including protostome lineage.

    Science.gov (United States)

    Päri, Mailis; Kuusksalu, Anne; Lopp, Annika; Kjaer, Karina Hansen; Justesen, Just; Kelve, Merike

    2014-02-01

    2',5'-Oligoadenylate synthetases (OASs) belong to the nucleotidyl transferase family together with poly(A) polymerases, CCA-adding enzymes and the recently discovered cyclic-GMP-AMP synthase (cGAS). Mammalian OASs have been thoroughly characterized as components of the interferon-induced antiviral system. The OAS activity and the respective genes were also discovered in marine sponges where the interferon system is absent. In this study the recombinant OASs from several multicellular animals and their closest unicellular relative, a choanoflagellate, were expressed in a bacterial expression system and their enzymatic activities were examined. We demonstrated 2-5A synthesizing activities of OASs from the marine sponge Tedania ignis, a representative of the phylogenetically oldest metazoan phylum (Porifera), from an invertebrate of the protostome lineage, the mollusk Mytilus californianus (Mollusca), and from a vertebrate species, a cartilaginous fish Leucoraja erinacea (Chordata). However, the expressed proteins from an amphibian, the salamander Ambystoma mexicanum (Chordata), and from a protozoan, the marine choanoflagellate Monosiga brevicollis (Choanozoa), did not show 2-5A synthesizing activity. Differently from other studied OASs, OAS from the marine sponge T. ignis was able to catalyze the formation of oligomers having both 2',5'- and 3',5'-phosphodiester linkages. Our data suggest that OASs from sponges and evolutionarily higher animals have similar activation mechanisms which still include different affinities and possibly different structural requirements for the activating RNAs. Considering their 2'- and 3'-specificities, sponge OASs could represent a link between evolutionarily earlier nucleotidyl transferases and 2'-specific OASs from higher animals. PMID:24184688

  19. Multiple origins of Plasmodium falciparum dihydropteroate synthetase mutant alleles associated with sulfadoxine resistance in India.

    Science.gov (United States)

    Lumb, Vanshika; Das, Manoj K; Singh, Neeru; Dev, Vas; Khan, Wajihullah; Sharma, Yagya D

    2011-06-01

    With the spread of chloroquine (CQ)-resistant malaria in India, sulfadoxine-pyrimethamine (SP) alone or in combination with artesunate is used as an alternative antimalarial drug. Due to continuous drug pressure, the Plasmodium falciparum parasite is exhibiting resistance to antifolates because of mutations in candidate genes dihydrofolate reductase (dhfr) and dihydropteroate synthetase (dhps). Our earlier study on flanking microsatellite markers of dhfr mutant alleles from India had shown a single origin of the pyrimethamine resistance and some minor haplotypes which shared haplotypes with Southeast Asian (Thailand) strains. In the present study, we have analyzed 193 of these Indian P. falciparum isolates for 15 microsatellite loci around dhps to investigate the genetic lineages of the mutant dhps alleles in different parts of the country. Eighty-one of these samples had mutant dhps alleles, of which 62 were from Andaman and Nicobar Islands and the remaining 19 were from mainland India. Of 112 isolates with a wild-type dhps allele, 109 were from mainland India and only 3 were from Andaman and Nicobar Islands. Consistent with the model of selection, the mean expected heterozygosity (H(e)) around mutant dhps alleles (H(e) = 0.55; n = 81) associated with sulfadoxine resistance was lower (P ≤ 0.05) than the mean H(e) around the wild-type dhps allele (H(e) = 0.80; n = 112). There was more genetic diversity in flanking microsatellites of dhps than dhfr among these isolates, which confirms the assertion that dhps mutations are at a very early stage of fixation in the parasite population. Microsatellite haplotypes around various mutant dhps alleles suggest that the resistant dhps alleles have multiple independent origins in India, especially in Andaman and Nicobar Islands. Determining the genetic lineages of the resistant dhps alleles on Andaman and Nicobar Islands and mainland India is significant, given the role of Asia in the intercontinental spread of chloroquine

  20. Arabidopsis plastidial folylpolyglutamate synthetase is required for seed reserve accumulation and seedling establishment in darkness.

    Directory of Open Access Journals (Sweden)

    Hongyan Meng

    Full Text Available Interactions among metabolic pathways are important in plant biology. At present, not much is known about how folate metabolism affects other metabolic pathways in plants. Here we report a T-DNA insertion mutant (atdfb-3 of the plastidial folylpolyglutamate synthetase gene (AtDFB was defective in seed reserves and skotomorphogenesis. Lower carbon (C and higher nitrogen (N content in the mutant seeds than that of the wild type were indicative of an altered C and N partitioning capacity. Higher levels of organic acids and sugars were detected in the mutant seeds compared with the wild type. Further analysis revealed that atdfb-3 seeds contained less total amino acids and individual Asn and Glu as well as NO3-. These results indicate significant changes in seed storage in the mutant. Defects in hypocotyl elongation were observed in atdfb-3 in darkness under sufficient NO3- conditions, and further enhanced under NO3- limited conditions. The strong expression of AtDFB in cotyledons and hypocotyl during early developmental stage was consistent with the mutant sensitivity to limited NO3- during a narrow developmental window. Exogenous 5-formyl-tetrahydrofolate completely restored the hypocotyl length in atdfb-3 seedlings with NO3- as the sole N source. Further study demonstrated that folate profiling and N metabolism were perturbed in atdfb-3 etiolated seedlings. The activity of enzymes involved in N reduction and assimilation was altered in atdfb-3. Taken together, these results indicate that AtDFB is required for seed reserves, hypocotyl elongation and N metabolism in darkness, providing novel insights into potential associations of folate metabolism with seed reserve accumulation, N metabolism and hypocotyl development in Arabidopsis.

  1. Folylpoly-γ-glutamate synthetase: A key determinant of folate homeostasis and antifolate resistance in cancer.

    Science.gov (United States)

    Raz, Shachar; Stark, Michal; Assaraf, Yehuda G

    2016-09-01

    Mammalians are devoid of autonomous biosynthesis of folates and hence must obtain them from the diet. Reduced folate cofactors are B9-vitamins which play a key role as donors of one-carbon units in the biosynthesis of purine nucleotides, thymidylate and amino acids as well as in a multitude of methylation reactions including DNA, RNA, histone and non-histone proteins, phospholipids, as well as intermediate metabolites. The products of these S-adenosylmethionine (SAM)-dependent methylations are involved in the regulation of key biological processes including transcription, translation and intracellular signaling. Folate-dependent one-carbon metabolism occurs in several subcellular compartments including the cytoplasm, mitochondria, and nucleus. Since folates are essential for DNA replication, intracellular folate cofactors play a central role in cancer biology and inflammatory autoimmune disorders. In this respect, various folate-dependent enzymes catalyzing nucleotide biosynthesis have been targeted by specific folate antagonists known as antifolates. Currently, antifolates are used in drug treatment of multiple human cancers, non-malignant chronic inflammatory disorders as well as bacterial and parasitic infections. An obligatory key component of intracellular folate retention and intracellular homeostasis is (anti)folate polyglutamylation, mediated by the unique enzyme folylpoly-γ-glutamate synthetase (FPGS), which resides in both the cytoplasm and mitochondria. Consistently, knockout of the FPGS gene in mice results in embryonic lethality. FPGS catalyzes the addition of a long polyglutamate chain to folates and antifolates, hence rendering them polyanions which are efficiently retained in the cell and are now bound with enhanced affinity by various folate-dependent enzymes. The current review highlights the crucial role that FPGS plays in maintenance of folate homeostasis under physiological conditions and delineates the plethora of the molecular mechanisms

  2. Purification and characterization of the acetyl-CoA synthetase from Mycobacterium tuberculosis

    Institute of Scientific and Technical Information of China (English)

    Ru Li; Jing Gu; Peng Chen; Zhiping Zhang; Jiaoyu Deng; XianEn Zhang

    2011-01-01

    Acetyl-CoA (AcCoA) synthetase (Acs) catalyzes the conversion of acetate into AcCoA,which is involved in many catabolic and anabolic pathways.Although this enzyme has been studied for many years in many organisms,the properties of Mycobacterium tuberculosis Acs and the regulation of its activity remain unknown.Here,the putative acs gene of M.tuberculosis H37Rv (Mt-Acs) was expressed as a fusion protein with 6×His-tag on the C-terminus in Escherichia coli.The recombinant Mt-Acs protein was successfully purified and then its enzymatic characteristics were analyzed.The optimal pH and temperature,and the kinetic parameters of Mt-Acs were determined.To investigate whether Mt-Acs is regulated by lysine acetylation as reported for Salmonella enterica Acs,its mutant K617R was also generated.Determination of the enzymatic activity suggests that Lys-617 is critical for its function.We further demonstrated that Mt-Acs underwent auto-acetylation with acetate but not with AcCoA as the acetyl donor,which resulted in the decrease of its activity.CoA,the substrate for AcCoA formation,inhibited the auto-acetylation.Furthermore,the silent information regulator (Sir2) of M.tuberculosis (Mt-Sir2) could catalyze Mt-Acs deacetylation,which resulted in activation of Acs.These results may provide more insights into the physiological roles of Mt-Acs in M.tuberculosis central metabolism.

  3. Expression of acyl-CoA synthetase 5 reflects the state of villus architecture in human small intestine

    DEFF Research Database (Denmark)

    Gassler, Nikolaus; Kopitz, Jürgen; Tehrani, Arman;

    2004-01-01

    . Screening of antibodies from a hybridoma library led to the identification of an acyl-CoA synthetase 5-specific monoclonal antibody. Protein synthesis, mRNA expression, and the enzyme activity of acyl-CoA synthetase 5 were studied by several methods in human small intestinal tissues with Crohn's disease...

  4. Continuous recording of long-chain acyl-coenzyme A synthetase activity using fluorescently labeled bovine serum albumin

    DEFF Research Database (Denmark)

    Demant, Erland J.F.; Nystrøm, Birthe T.

    2001-01-01

    acyl-Coenzyme A, synthetase, activity assay, fluorescence recording, fatty acid probe, serum albumin, hydroxycoumarin, detergent, micelles, Pseudomonas fragi, rat liver microsomes......acyl-Coenzyme A, synthetase, activity assay, fluorescence recording, fatty acid probe, serum albumin, hydroxycoumarin, detergent, micelles, Pseudomonas fragi, rat liver microsomes...

  5. Methods and compositions for the production of orthogonal tRNA-aminoacyl tRNA synthetase pairs

    Energy Technology Data Exchange (ETDEWEB)

    Schultz, Peter G.; Wang, Lei; Anderson, John Christopher; Chin, Jason W.; Liu, David R.; Magliery, Thomas J.; Meggers, Eric L.; Mehl, Ryan Aaron; Pastrnak, Miro; Santoro, Stephen William; Zhang, Zhiwen

    2015-10-20

    This invention provides compositions and methods for generating components of protein biosynthetic machinery including orthogonal tRNAs, orthogonal aminoacyl-tRNA synthetases, and orthogonal pairs of tRNAs/synthetases. Methods for identifying orthogonal pairs are also provided. These components can be used to incorporate unnatural amino acids into proteins in vivo.

  6. Gene

    Data.gov (United States)

    U.S. Department of Health & Human Services — Gene integrates information from a wide range of species. A record may include nomenclature, Reference Sequences (RefSeqs), maps, pathways, variations, phenotypes,...

  7. 19-Year Follow-up of A Patient With Severe Glutathione Synthetase Deficiency

    Science.gov (United States)

    Atwal, Paldeep S.; Medina, Casey R.; Burrage, Lindsay C.; Sutton, V. Reid

    2016-01-01

    Glutathione synthetase deficiency is a rare autosomal recessive disorder resulting in low levels of glutathione and an increased susceptibility to oxidative stress. Patients with glutathione synthetase deficiency typically present in the neonatal period with hemolytic anemia, metabolic acidosis and neurological impairment. Lifelong treatment with antioxidants has been recommended in an attempt to prevent morbidity and mortality associated with the disorder. Here we present a 19-year-old female who was diagnosed with glutathione synthetase deficiency shortly after birth and who has been closely followed in our metabolic clinic. Despite an initial severe presentation, she has had normal intellectual development and few complications of her disorder with a treatment regimen that includes polycitra (citric acid, potassium citrate and sodium citrate), vitamin C, vitamin E and selenium. PMID:26984560

  8. An archaeal tRNA-synthetase complex that enhances aminoacylation under extreme conditions

    DEFF Research Database (Denmark)

    Godinic-Mikulcic, Vlatka; Jaric, Jelena; Hausmann, Corinne D;

    2011-01-01

    Aminoacyl-tRNA synthetases (aaRSs) play an integral role in protein synthesis, functioning to attach the correct amino acid with its cognate tRNA molecule. AaRSs are known to associate into higher-order multi-aminoacyl-tRNA synthetase complexes (MSC) involved in archaeal and eukaryotic translation...... the catalytic efficiency of serine attachment to tRNA, but had no effect on the activity of MtArgRS. Further, the most pronounced improvements in the aminoacylation activity of MtSerRS induced by MtArgRS were observed under conditions of elevated temperature and osmolarity. These data indicate that......, although the precise biological role remains largely unknown. To gain further insights into archaeal MSCs, possible protein-protein interactions with the atypical Methanothermobacter thermautotrophicus seryl-tRNA synthetase (MtSerRS) were investigated. Yeast two-hybrid analysis revealed arginyl-tRNA...

  9. Binding of divalent magnesium by Escherichia coli phosphoribosyl diphosphate synthetase

    DEFF Research Database (Denmark)

    Willemoës, Martin; Hove-Jensen, Bjarne

    1997-01-01

    The mechanism of binding of the substrates Mg x ATP and ribose 5-phosphate as well as Mg2+ to the enzyme 5-phospho-D-ribosyl (alpha-1-diphosphate synthetase from Escherichia coli has been analyzed. By use of the competive inhibitors of ATP and ribose 5-phosphate binding, alpha,beta-methylene ATP...... to the binding of substrates and products indicated a role of Mg2+ in preparing the active site of phosphoribosyl diphosphate synthetase for binding of the highly phosphorylated ligands Mg x ATP and phosphoribosyl diphosphate, as evaluated by analysis of the effects of the inhibitors adenosine and ribose 1...... in competition with enzyme bound Mg2+. Ligand binding studies showed that 1 mol of Mg x ATP was bound per mol of phosphoribosyl diphosphate synthetase subunit, which indicated that the allosteric sites of the multimeric enzyme were not made up by inactive catalytic sites....

  10. Identification of autoantibodies to tyrosil-tRNA synthetase in heart disfunctions

    Directory of Open Access Journals (Sweden)

    Ryabenko D. V.

    2010-09-01

    Full Text Available Aim. To investigate the levels of specific autoantibodies against tyrosyl-tRNA synthetase and its individual modules in the blood serum of people with heart failure caused by dilated cardiomyopathy, myocarditis and ischemic heart disease compared with healthy donors. Methods. Recombinant proteins were obtained using bacterial strains transformed with appropriate plasmid vectors and were purified by chromatography on Ni-NTA-agarose. The levels of specific autoantibodies were investigated by ELISA. Results. The increased levels of autoantibodies specific to tyrosyl-tRNA synthetase, its N-terminal catalytic module and non-catalytic C-module, were found in the blood serum of patients, compared with healthy donors. Conclusions. The results obtained demonstrate the possible role of tyrosyl-tRNA synthetase in adaptive changes of the myocardium in response to stress factors.

  11. Microcystin Biosynthesis in Planktothrix: Genes, Evolution, and Manipulation

    Science.gov (United States)

    Christiansen, Guntram; Fastner, Jutta; Erhard, Marcel; Börner, Thomas; Dittmann, Elke

    2003-01-01

    Microcystins represent an extraordinarily large family of cyclic heptapeptide toxins that are nonribosomally synthesized by various cyanobacteria. Microcystins specifically inhibit the eukaryotic protein phosphatases 1 and 2A. Their outstanding variability makes them particularly useful for studies on the evolution of structure-function relationships in peptide synthetases and their genes. Analyses of microcystin synthetase genes provide valuable clues for the potential and limits of combinatorial biosynthesis. We have sequenced and analyzed 55.6 kb of the potential microcystin synthetase gene (mcy) cluster from the filamentous cyanobacterium Planktothrix agardhii CYA 126. The cluster contains genes for peptide synthetases (mcyABC), polyketide synthases (PKSs; mcyD), chimeric enzymes composed of peptide synthetase and PKS modules (mcyEG), a putative thioesterase (mcyT), a putative ABC transporter (mcyH), and a putative peptide-modifying enzyme (mcyJ). The gene content and arrangement and the sequence of specific domains in the gene products differ from those of the mcy cluster in Microcystis, a unicellular cyanobacterium. The data suggest an evolution of mcy clusters from, rather than to, genes for nodularin (a related pentapeptide) biosynthesis. Our data do not support the idea of horizontal gene transfer of complete mcy gene clusters between the genera. We have established a protocol for stable genetic transformation of Planktothrix, a genus that is characterized by multicellular filaments exhibiting continuous motility. Targeted mutation of mcyJ revealed its function as a gene coding for a O-methyltransferase. The mutant cells produce a novel microcystin variant exhibiting reduced inhibitory activity toward protein phosphatases. PMID:12511503

  12. Heterologous expression in Escherichia coli of the first module of the nonribosomal peptide synthetase for chloroeremomycin, a vancomycin-type glycopeptide antibiotic.

    Science.gov (United States)

    Trauger, J W; Walsh, C T

    2000-03-28

    The gene cluster from Amycolotopsis orientalis responsible for biosynthesis of the vancomycin-type glycopeptide antibiotic chloroeremomycin was recently sequenced, indicating that this antibiotic derives from a seven-residue peptide synthesized by a three-subunit (CepA, CepB, and CepC) modular nonribosomal peptide synthetase. Expression of all or parts of the peptide synthetase in Escherichia coli would facilitate biochemical characterization of its substrate specificity, an important step toward the development of more potent glycopeptides by combinatorial biosynthesis. To determine whether CepA, a three-module 3,158-residue peptide synthetase expected to assemble the first three residues of the heptapeptide precursor, could be heterologously expressed in E. coli and converted to active, holo form by posttranslational priming with a phosphopantetheinyltransferase, we expressed two CepA fragments (CepA1-575 and CepA1-1596) as well as full-length CepA (CepA1-3158). All three constructs were expressed in soluble form. We find that the CepA1-575 fragment, containing adenylation and peptidyl carrier protein domains (A1-PCP1), specifically adenylates l-leucine and d-leucine in a 6:1 ratio, and it can be converted to holo form by the phosphopantetheinyltransferase Sfp; also, we find that holo-CepA1-575 can be covalently aminoacylated with l-leucine on the peptidyl carrier protein 1 domain. However, no amino acid-dependent adenylation or aminoacylation activity was detected for the larger CepA constructs with l-leucine or other expected amino acid substrates, suggesting severe folding problems in the multidomain proteins. PMID:10716695

  13. Computational modeling-based discovery of novel classes of anti-inflammatory drugs that target lanthionine synthetase C-like protein 2.

    Directory of Open Access Journals (Sweden)

    Pinyi Lu

    Full Text Available BACKGROUND: Lanthionine synthetase component C-like protein 2 (LANCL2 is a member of the eukaryotic lanthionine synthetase component C-Like protein family involved in signal transduction and insulin sensitization. Recently, LANCL2 is a target for the binding and signaling of abscisic acid (ABA, a plant hormone with anti-diabetic and anti-inflammatory effects. METHODOLOGY/PRINCIPAL FINDINGS: The goal of this study was to determine the role of LANCL2 as a potential therapeutic target for developing novel drugs and nutraceuticals against inflammatory diseases. Previously, we performed homology modeling to construct a three-dimensional structure of LANCL2 using the crystal structure of lanthionine synthetase component C-like protein 1 (LANCL1 as a template. Using this model, structure-based virtual screening was performed using compounds from NCI (National Cancer Institute Diversity Set II, ChemBridge, ZINC natural products, and FDA-approved drugs databases. Several potential ligands were identified using molecular docking. In order to validate the anti-inflammatory efficacy of the top ranked compound (NSC61610 in the NCI Diversity Set II, a series of in vitro and pre-clinical efficacy studies were performed using a mouse model of dextran sodium sulfate (DSS-induced colitis. Our findings showed that the lead compound, NSC61610, activated peroxisome proliferator-activated receptor gamma in a LANCL2- and adenylate cyclase/cAMP dependent manner in vitro and ameliorated experimental colitis by down-modulating colonic inflammatory gene expression and favoring regulatory T cell responses. CONCLUSIONS/SIGNIFICANCE: LANCL2 is a novel therapeutic target for inflammatory diseases. High-throughput, structure-based virtual screening is an effective computational-based drug design method for discovering anti-inflammatory LANCL2-based drug candidates.

  14. Multiple erythroid isoforms of human long-chain acyl-CoA synthetases are produced by switch of the fatty acid gate domains

    Directory of Open Access Journals (Sweden)

    Kuypers Frans A

    2006-07-01

    Full Text Available Abstract Background The formation of acyl-CoA by the action of acyl-CoA synthetases plays a crucial role in membrane lipid turnover, including the plasma membrane of erythrocytes. In human, five Acyl-CoA Synthetase Long-chain (ACSL genes have been identified with as many as 3 different transcript variants for each. Results Acyl-CoA Synthetase Long-chain member 6 (ACSL6 is responsible for activation of long-chain fatty acids in erythrocytes. Two additional transcript variants were also isolated from brain and testis. We report the expression in reticulocytes of two new variants and of the one isolated from brain. All three represented different spliced variants of a mutually exclusive exon pair. They encode a slightly different short motif which contains a conserved structural domain, the fatty acid Gate domain. The motifs differ in the presence of either the aromatic residue phenylalanine (Phe or tyrosine (Tyr. Based on homology, two new isoforms for the closely related ACSL1 were predicted and characterized. One represented a switch of the Phe- to the Tyr-Gate domain motif, the other resulted from the exclusion of both. Swapping of this motif also appears to be common in all mammalian ACSL member 1 and 6 homologs. Conclusion We propose that a Phe to Tyr substitution or deletion of the Gate domain, is the structural reason for the conserved alternative splicing that affects these motifs. Our findings support our hypothesis that this region is structurally important to define the activity of these enzymes.

  15. Glutamate dehydrogenase and glutamine synthetase are regulated in response to nitrogen availability in Myocbacterium smegmatis

    Directory of Open Access Journals (Sweden)

    van Helden Paul

    2010-05-01

    Full Text Available Abstract Background The assimilation of nitrogen is an essential process in all prokaryotes, yet a relatively limited amount of information is available on nitrogen metabolism in the mycobacteria. The physiological role and pathogenic properties of glutamine synthetase (GS have been extensively investigated in Mycobacterium tuberculosis. However, little is known about this enzyme in other mycobacterial species, or the role of an additional nitrogen assimilatory pathway via glutamate dehydrogenase (GDH, in the mycobacteria as a whole. We investigated specific enzyme activity and transcription of GS and as well as both possible isoforms of GDH (NAD+- and NADP+-specific GDH under varying conditions of nitrogen availability in Mycobacterium smegmatis as a model for the mycobacteria. Results It was found that the specific activity of the aminating NADP+-GDH reaction and the deaminating NAD+-GDH reaction did not change appreciably in response to nitrogen availability. However, GS activity as well as the deaminating NADP+-GDH and aminating NAD+-GDH reactions were indeed significantly altered in response to exogenous nitrogen concentrations. Transcription of genes encoding for GS and the GDH isoforms were also found to be regulated under our experimental conditions. Conclusions The physiological role and regulation of GS in M. smegmatis was similar to that which has been described for other mycobacteria, however, in our study the regulation of both NADP+- and NAD+-GDH specific activity in M. smegmatis appeared to be different to that of other Actinomycetales. It was found that NAD+-GDH played an important role in nitrogen assimilation rather than glutamate catabolism as was previously thought, and is it's activity appeared to be regulated in response to nitrogen availability. Transcription of the genes encoding for NAD+-GDH enzymes seem to be regulated in M. smegmatis under the conditions tested and may contribute to the changes in enzyme activity

  16. Various mechanisms in cyclopeptide production from precursors synthesized independently of non-ribosomal peptide synthetases

    Institute of Scientific and Technical Information of China (English)

    Wenyan Xu; Liling Li; Liangcheng Du; Ninghua Tan

    2011-01-01

    An increasing number of cyclopeptides have been discovered as products of ribosomal synthetic pathway.The biosynthetic study of these cyclopeptides has revealed interesting new mechanisms for cyclization.This review highlighted the recent discoveries in cyclization mechanisms for cyclopeptides synthesized independently of non-ribosomal peptide synthetases,including endopeptidase-catalyzed cyclization,intein-mediated cyclization,and peptide synthetase-catalyzed cyclization.This information may help to design hybrid ribosomal and non-ribosomal biosynthetic systems to produce novel cyclopeptides with various bioactivities.

  17. The regulation of Escherichia coli glutamine synthetase revisited: role of 2-ketoglutarate in the regulation of glutamine synthetase adenylylation state.

    Science.gov (United States)

    Jiang, P; Peliska, J A; Ninfa, A J

    1998-09-15

    The regulation of Escherichia coli glutamine synthetase (GS) by reversible adenylylation has provided one of the classical paradigms for signal transduction by cyclic cascades. Yet, many mechanistic features of this regulation remain to be elucidated. We examined the regulation of GS adenylylation state in a reconstituted system containing GS, adenylyltransferase (ATase), the PII signal transduction protein that controls ATase, and the uridylyltransferase/uridylyl-removing enzyme (UTase/UR), which has a role in regulating PII. In this reconstituted bicyclic cascade system, the adenylylation state of GS was regulated reciprocally by the small molecule effectors 2-ketoglutarate and glutamine at physiological effector concentrations. By examination of the individual regulatory monocycles and comparison to the bicyclic system and existing data, we could deduce that the only sensors of 2-ketoglutarate were PII and PII-UMP. At physiological conditions, we observed that the main role of 2-ketoglutarate in bringing about the deadenylylation of GS was to inhibit GS adenylylation, and this was due to the allosteric regulation of PII activity. Glutamine acted as an allosteric regulator of both ATase and UTase/UR. We also compared the regulation of GS adenylylation state to the regulation of phosphorylation state of the transcription factor NRI (NtrC) in a reconstituted bicyclic system containing NRI, the bifunctional kinase/phosphatase NRII (NtrB), PII, and the UTase/UR. This comparison indicated that, at a fixed 2-ketoglutarate concentration, the regulation of GS adenylylation state by glutamine was sharper and occurred at a higher concentration than did the regulation of NRI phosphorylation. The possible biological implications of this regulatory arrangement are discussed. PMID:9737857

  18. The production of Multiple Small Peptaibol Families by Single 14-Module Peptide Synthetases in Trichoderma/Hypocrea

    Energy Technology Data Exchange (ETDEWEB)

    Degenkolb, Thomas; Aghchehb, Razieh Karimi; Dieckmann, Ralf; Neuhof, Torsten; Baker, Scott E.; Druzhinina, Irina S.; Kubicek, Christian P.; Brückner, Hans; von Dohren, Hans

    2012-03-01

    The most common peptaibibiotic structures are 11-residue peptaibols found widely distributed in the genus Trichoderma/Hypocrea. Frequently associated are 14-residue peptaibols sharing partial sequence identity. Genome sequencing projects of 3 Trichoderma strains of the major clades reveal the presence of up to 3 types of nonribosomal peptide synthetases with 7, 14, or 18-20 amino acid adding modules. We here provide evidence that the 14-module NRPS type found in T. virens, T. reesei (teleomorph Hypocrea jecorina) and T. atroviride produces both 11- and 14- residue peptaibols based on the disruption of the respective NRPS gene of T. reesei, and bioinformatic analysis of their amino acid activating domains and modules. The structures of these peptides may be predicted from the gene structures and have been confirmed by analysis of families of 11- and 14-residue peptaibols from the strain 618, termed hypojecorins A (23 sequences determined, 4 new) and B (3 new sequences), and the recently established trichovirins A from T. virens. The distribution of 11- and 14-residue products is strain-specific and depends on growth conditions as well. Possible mechanisms of module skipping are discussed.

  19. Absence of acetohydroxy acid synthetase in a clinical isolate of Neisseria gonorrhoeae requiring isoleucine and valine.

    OpenAIRE

    Lerner, S A; Friedman, E L; Dudek, E J; Kominski, G; Bohnhoff, M.; Morello, J A

    1980-01-01

    A clinical isolate of Neisseria gonorrhoeae with an unusual growth requirement for isoleucine and valine lacked the activity of acetohydroxy acid synthetase, one of the enzymes required for the biosynthesis of these amino acids. A spontaneous mutant which no longer required isoleucine and valine had acquired this enzymatic activity.

  20. A novel therapeutic target for peripheral nerve injury-related diseases: aminoacyl-tRNA synthetases

    Directory of Open Access Journals (Sweden)

    Byung Sun Park

    2015-01-01

    Full Text Available Aminoacyl-tRNA synthetases (AminoARSs are essential enzymes that perform the first step of protein synthesis. Beyond their original roles, AminoARSs possess non-canonical functions, such as cell cycle regulation and signal transduction. Therefore, AminoARSs represent a powerful pharmaceutical target if their non-canonical functions can be controlled. Using AminoARSs-specific primers, we screened mRNA expression in the spinal cord dorsal horn of rats with peripheral nerve injury created by sciatic nerve axotomy. Of 20 AminoARSs, we found that phenylalanyl-tRNA synthetase beta chain (FARSB, isoleucyl-tRNA synthetase (IARS and methionyl-tRNA synthetase (MARS mRNA expression was increased in spinal dorsal horn neurons on the injured side, but not in glial cells. These findings suggest the possibility that FARSB, IARS and MARS, as a neurotransmitter, may transfer abnormal sensory signals after peripheral nerve damage and become a new target for drug treatment.

  1. The PRPP Synthetase Spectrum: What Does it Demonstrate About Nucleotide Syndromes?

    NARCIS (Netherlands)

    Duley, J.A.; Christodoulou, J.; Brouwer, A.P.M. de

    2011-01-01

    Defects in X-linked phosphoribosylpyrophosphate synthetase 1 (PRPS1) manifest as follows: (1) PRS-I enzyme "superactivity" (gain-of-function mutations affecting allosteric regions); (2) PRS-I overexpression (which may be linked to miRNA mutation); (3) severe PRS-I deficiency/Arts syndrome (missense

  2. Draft Genome Sequences of Five Novel Polyketide Synthetase-Containing Mouse Escherichia coli Strains

    Science.gov (United States)

    Mannion, Anthony; Shen, Zeli; Feng, Yan; Garcia, Alexis

    2016-01-01

    We report herein the draft genomes of five novel Escherichia coli strains isolated from surveillance and experimental mice housed at MIT and the Whitehead Institute and describe their genomic characteristics in context with the polyketide synthetase (PKS)-containing pathogenic E. coli strains NC101, IHE3034, and A192PP.

  3. 2'-phosphodiesterase and 2',5'-oligoadenylate synthetase activities in the lowest metazoans, sponge [porifera

    DEFF Research Database (Denmark)

    Saby, Emilie; Poulsen, Jesper Buchhave; Justesen, Just;

    2009-01-01

    Sponges [porifera], the most ancient metazoans, contain modules related to the vertebrate immune system, including the 2′,5′-oligoadenylate synthetase (OAS). The components of the antiviral 2′,5′-oligoadenylate (2–5A) system (OAS, 2′-Phosphodiesterase (2′-PDE) and RNAse L) of vertebrates have not...

  4. Characterization of a Salmonella typhimurium mutant defective in phosphoribosylpyrophosphate synthetase

    DEFF Research Database (Denmark)

    Jochimsen, Bjarne U.; Hove-Jensen, Bjarne; Garber, Bruce B.;

    1985-01-01

    This study describes the isolation and characterization of a mutant (strain GP122) of Salmonella typhimurium with a partial deficiency of phosphoribosylpyrophosphate (PRPP) synthetase activity. This strain was isolated in a purE deoD gpt purine auxotroph by a procedure designed to select guanosin...

  5. Association of IDDM and attenuated response of 2',5'-oligoadenylate synthetase to yellow fever vaccine

    DEFF Research Database (Denmark)

    Bonnevie-Nielsen, V; Larsen, M L; Frifelt, J J;

    1989-01-01

    Basal and yellow fever vaccination-induced 2',5'-oligoadenylate synthetase (2',5'A) activity was determined in blood mononuclear cells (peripheral blood lymphocytes [PBLs]) from insulin-dependent diabetes mellitus (IDDM) and matched control subjects. The live attenuated yellow fever vaccine repre...

  6. Redox status affects the catalytic activity of glutamyl-tRNA synthetase

    DEFF Research Database (Denmark)

    Katz, Assaf; Banerjee, Rajat; de Armas, Merly;

    2010-01-01

    Glutamyl-tRNA synthetases (GluRS) provide Glu-tRNA for different processes including protein synthesis, glutamine transamidation and tetrapyrrole biosynthesis. Many organisms contain multiple GluRSs, but whether these duplications solely broaden tRNA specificity or also play additional roles...

  7. Regulation of Amidase Formation in Mutants from Pseudomonas aeruginosa PAO Lacking Glutamine Synthetase Activity

    NARCIS (Netherlands)

    Janssen, Dick B.; Herst, Patricia M.; Joosten, Han M.L.J.; Drift, Chris van der

    1982-01-01

    The formation of amidase was studied in mutants from Pseudomonas aeruginosa PAO lacking glutamine synthetase activity. It appeared that catabolite repression of amidase synthesis by succinate was partially relieved when cellular growth was limited by glutamine. Under these conditions, a correlation

  8. Functions of Glutamine Synthetase Isoforms in the Nitrogen Metabolism of Plants

    DEFF Research Database (Denmark)

    Guan, Miao

    ;2 which encode different isoforms of the key N-assimilatory enzyme cytosolic glutamine synthetase (GS1). In the single knockout mutant gln1;2 and in the double knockout mutant gln1;1:gln1;2, seed germination and seedling establishment were distinctly impaired. The negative effect of Gln1;2 deficiency...

  9. Changes in Activities of Glutamine Synthetase during Grain Filling and Their Relation to Rice Quality

    Institute of Scientific and Technical Information of China (English)

    2007-01-01

    Four japonica rice varieties differed in cooking and eating qualities were used in a pot experiment to study the relationship between the activities of glutamine synthetase during grain filling and rice quality. The activities of glutamine synthetase gradually increased and then declined as a single peak curve in the course of grain filling. The 15th day after heading was a turning point, before which the enzymatic activities in the inferior rice varieties with high protein content were higher than those in the superior rice varietie with low protein content, and after which it was converse. The activity of glutamine synthetase in grain was correlated with the taste meter value, peak viscosity and breakdown negatively at the early stage of grain filling whereas positively at the middle and late stages. Moreover, it was correlated with the protein content of rice grain and setback positively at the early stage and negatively at the middle and late stages. The correlation degree varied with the course of grain filling. From 15 days to 20 days after heading was a critical stage, in which the direction of correlation between the activity of glutamine synthetase and taste meter value and RVA properties of rice changed.

  10. Glutamine synthetase subunit mixing and regulation in Bacillus subtilis partial diploids.

    OpenAIRE

    Gardner, A; Odebralski, J; Zahler, Stefan; Korman, R Z; Aronson, A I

    1982-01-01

    A specialized transducing phage, SP beta c2 dglnA2, of Bacillus subtilis was used to construct partial diploids with various glutamine auxotrophs. The overproduction of manganese-stimulated glutamine synthetase no longer occurred in the diploids. The kinetics of heat inactivation of the enzyme extracted from two diploids suggests that there was subunit mixing.

  11. The effect of portacaval anastomosis on the expression of glutamine synthetase and ornithine aminotransferase in perivenous hepatocytes.

    Science.gov (United States)

    da Silva, Robin; Levillain, Oliver; Brosnan, John T; Araneda, Silvia; Brosnan, Margaret E

    2013-05-01

    There is functional zonation of metabolism across the liver acinus, with glutamine synthetase restricted to a narrow band of cells around the terminal hepatic venules. Portacaval anastomosis, where there is a major rerouting of portal blood flow from the portal vein directly to the vena cava bypassing the liver, has been reported to result in a marked decrease in the activity of glutamine synthetase. It is not known whether this represents a loss of perivenous hepatocytes or whether there is a specific loss of glutamine synthetase. To answer this question, we have determined the activity of glutamine synthetase and another enzyme from the perivenous compartment, ornithine aminotransferase, as well as the immunochemical localization of both glutamine synthetase and ornithine aminotransferase in rats with a portacaval shunt. The portacaval shunt caused a marked decrease in glutamine synthetase activity and an increase in ornithine aminotransferase activity. Immunohistochemical analysis showed that the glutamine synthetase and ornithine aminotransferase proteins maintained their location in the perivenous cells. These results indicate that there is no generalized loss of perivenous hepatocytes, but rather, there is a significant alteration in the expression of these proteins and hence metabolism in this cell population.

  12. Regulation of the intersubunit ammonia tunnel in Mycobacterium tuberculosis glutamine-dependent NAD[superscript +] synthetase

    Energy Technology Data Exchange (ETDEWEB)

    Chuenchor, Watchalee; Doukov, Tzanko I.; Resto, Melissa; Chang, Andrew; Gerratana, Barbara (SSRL); (Maryland)

    2012-08-31

    Glutamine-dependent NAD{sup +} synthetase is an essential enzyme and a validated drug target in Mycobacterium tuberculosis (mtuNadE). It catalyses the ATP-dependent formation of NAD{sup +} from NaAD{sup +} (nicotinic acid-adenine dinucleotide) at the synthetase active site and glutamine hydrolysis at the glutaminase active site. An ammonia tunnel 40 {angstrom} (1 {angstrom} = 0.1 nm) long allows transfer of ammonia from one active site to the other. The enzyme displays stringent kinetic synergism; however, its regulatory mechanism is unclear. In the present paper, we report the structures of the inactive glutaminase C176A variant in an apo form and in three synthetase-ligand complexes with substrates (NaAD{sup +}/ATP), substrate analogue {l_brace}NaAD{sup +}/AMP-CPP (adenosine 5'-[{alpha},{beta}-methylene]triphosphate){r_brace} and intermediate analogues (NaAD{sup +}/AMP/PPi), as well as the structure of wild-type mtuNadE in a product complex (NAD{sup +}/AMP/PPi/glutamate). This series of structures provides snapshots of the ammonia tunnel during the catalytic cycle supported also by kinetics and mutagenesis studies. Three major constriction sites are observed in the tunnel: (i) at the entrance near the glutaminase active site; (ii) in the middle of the tunnel; and (iii) at the end near the synthetase active site. Variation in the number and radius of the tunnel constrictions is apparent in the crystal structures and is related to ligand binding at the synthetase domain. These results provide new insight into the regulation of ammonia transport in the intermolecular tunnel of mtuNadE.

  13. Giardia fatty acyl-CoA synthetases as potential drug targets

    Directory of Open Access Journals (Sweden)

    Fengguang eGuo

    2015-07-01

    Full Text Available Giardiasis caused by Giardia intestinalis (syn. G. lamblia, G. duodenalis is one of the leading causes of diarrheal parasitic diseases worldwide. Although limited drugs to treat giardiasis are available, there are concerns regarding toxicity in some patients and the emerging drug resistance. By data-mining genome sequences, we observed that G. intestinalis is incapable of synthesizing fatty acids de novo. However, this parasite has five long-chain fatty acyl-CoA synthetases (GiACS1 to GiACS5 to activate fatty acids scavenged from the host. ACS is an essential enzyme because fatty acids need to be activated to form acyl-CoA thioesters before they can enter subsequent metabolism. In the present study, we performed experiments to explore whether some GiACS enzymes could serve as drug targets in Giardia. Based on the high-throughput datasets and protein modeling analyses, we initially studied the GiACS1 and GiACS2, because genes encoding these two enzymes were found to be more consistently expressed in varied parasite life cycle stages and when interacting with host cells based on previously reported transcriptome data. These two proteins were cloned and expressed as recombinant proteins. Biochemical analysis revealed that both had apparent substrate preference towards palmitic acid (C16:0 and myristic acid (C14:0, and allosteric or Michaelis-Menten kinetics on palmitic acid or ATP. The ACS inhibitor triacsin C inhibited the activity of both enzymes (IC50 = 1.56 µM, Ki = 0.18 µM for GiACS1 and IC50 = 2.28 µM, Ki = 0.23 µM for GiACS2, respectively and the growth of G. intestinalis in vitro (IC50 = 0.8 µM. As expected from giardial evolutionary characteristics, both GiACSs displayed differences in overall folding structure as compared with their human counterparts. These observations support the notion that some of the GiACS enzymes may be explored as drug targets in this parasite.

  14. 蝴蝶兰S-腺苷甲硫氨酸合成酶基因的克隆及低温下的表达分析%Cloning of a S-Adenosylmethionine Synthetase Gene from Phalaenopsis ama-bilis and Its Expression under Low Temperature

    Institute of Scientific and Technical Information of China (English)

    袁秀云; 雷志华; 梁芳; 蒋素华; 许申平; 王默霏; 崔波

    2015-01-01

    The full-length sequence cDNA of SAMS (GenBank accession number:KP966096) was cloned from Phalaenopsis amabilis cultivar‘Red Sky’ using RT-PCR combined with RACE techniques. This sequence con-sists of 1 550 bp with an intact open reading frame of 1 194 bp, encoding a polypeptide of 397 amino acids. Homology analysis showed that the deduced SAMS protein was highly homologous to SAMS proteins from different species. Phylogenetic analysis indicated that SAMS was closely related to the SAMS of Elaeis guineensis. The results of real-time lfuorescent quantitative PCR using the combination of GAPDH, ACTIN and EF1αas internal control genes showed that the transcript levels of SAMS in P. amabilis were increased obvious-ly under day/night 13℃/8℃for 3, 6, 9 and 15 d, then declined after the recovery of normal temperature. Un-der the cold stress of 4℃, the expressions of SAMS were also increased signiifcantly at 0.5, 1, 2 and 4 h after cold treatment, and declined at 8 h to the level before treatment. The transcript levels of SAMS were not obvi-ously up-regulated and down-regulated at 12, 24 and 48 h after cold treatment. It suggested that SAMS play a role in cold tolerance in P. amabilis.%利用RT-PCR和RACE技术从蝴蝶兰品种‘满天红’中克隆获得SAMS基因的cDNA序列, GenBank登录号为KP966096。用生物信息学方法预测分析其序列, cDNA全长1550 bp,含有1个1194 bp的完整开放阅读框(ORF),编码397个氨基酸,其氨基酸序列与多种植物的SAMS蛋白有很高的相似性。系统进化树分析显示,蝴蝶兰SAMS与油棕的SAMS蛋白亲缘关系较近。采用GAPDH、ACTIN和EF1α这3个不同的内参基因作为标准对蝴蝶兰SAMS基因进行实时荧光定量分析,结果表明,在13℃/8℃的昼夜温度条件下,蝴蝶兰SAMS基因的转录表达在3、6、9和15 d时明显升高,恢复正常温度条件后,该基因的表达下降;在4℃低温条件下, SAMS基因的表达在处理0.5、1、2和4 h

  15. Preparation of the multienzyme system gramicidin S-synthetase 2 with an aqueous three-phase system.

    Science.gov (United States)

    Kirchner, A; Simonis, M; von Döhren, H

    1987-06-19

    The distribution of gramicidin S-synthetase activity from disrupted cells suspended in aqueous two- and three-phase systems was investigated. An optimized three-phase system containing 5% dextran, 8% Ficoll, 11% PEG and 6.7% disrupted cells was found to be effective in extracting gramicidin S-synthetase activity. The activity yield achieved was higher in comparison to other preparation methods, and the subsequent purification steps were greatly facilitated. The time needed for the preparation of the labile gramicidin S-synthetase was considerably reduced. The combination of the aqueous phase extraction with chromatographic methods yielded 19 mg gramicidin S-synthetase 2 in essentially pure form from 30 g (wet weight) of cells.

  16. Elucidating the Pseudomonas aeruginosa fatty acid degradation pathway: identification of additional fatty acyl-CoA synthetase homologues.

    Directory of Open Access Journals (Sweden)

    Jan Zarzycki-Siek

    Full Text Available The fatty acid (FA degradation pathway of Pseudomonas aeruginosa, an opportunistic pathogen, was recently shown to be involved in nutrient acquisition during BALB/c mouse lung infection model. The source of FA in the lung is believed to be phosphatidylcholine, the major component of lung surfactant. Previous research indicated that P. aeruginosa has more than two fatty acyl-CoA synthetase genes (fadD; PA3299 and PA3300, which are responsible for activation of FAs using ATP and coenzyme A. Through a bioinformatics approach, 11 candidate genes were identified by their homology to the Escherichia coli FadD in the present study. Four new homologues of fadD (PA1617, PA2893, PA3860, and PA3924 were functionally confirmed by their ability to complement the E. coli fadD mutant on FA-containing media. Growth phenotypes of 17 combinatorial fadD mutants on different FAs, as sole carbon sources, indicated that the four new fadD homologues are involved in FA degradation, bringing the total number of P. aeruginosa fadD genes to six. Of the four new homologues, fadD4 (PA1617 contributed the most to the degradation of different chain length FAs. Growth patterns of various fadD mutants on plant-based perfumery substances, citronellic and geranic acids, as sole carbon and energy sources indicated that fadD4 is also involved in the degradation of these plant-derived compounds. A decrease in fitness of the sextuple fadD mutant, relative to the ΔfadD1D2 mutant, was only observed during BALB/c mouse lung infection at 24 h.

  17. Elucidating the Pseudomonas aeruginosa fatty acid degradation pathway: identification of additional fatty acyl-CoA synthetase homologues.

    Science.gov (United States)

    Zarzycki-Siek, Jan; Norris, Michael H; Kang, Yun; Sun, Zhenxin; Bluhm, Andrew P; McMillan, Ian A; Hoang, Tung T

    2013-01-01

    The fatty acid (FA) degradation pathway of Pseudomonas aeruginosa, an opportunistic pathogen, was recently shown to be involved in nutrient acquisition during BALB/c mouse lung infection model. The source of FA in the lung is believed to be phosphatidylcholine, the major component of lung surfactant. Previous research indicated that P. aeruginosa has more than two fatty acyl-CoA synthetase genes (fadD; PA3299 and PA3300), which are responsible for activation of FAs using ATP and coenzyme A. Through a bioinformatics approach, 11 candidate genes were identified by their homology to the Escherichia coli FadD in the present study. Four new homologues of fadD (PA1617, PA2893, PA3860, and PA3924) were functionally confirmed by their ability to complement the E. coli fadD mutant on FA-containing media. Growth phenotypes of 17 combinatorial fadD mutants on different FAs, as sole carbon sources, indicated that the four new fadD homologues are involved in FA degradation, bringing the total number of P. aeruginosa fadD genes to six. Of the four new homologues, fadD4 (PA1617) contributed the most to the degradation of different chain length FAs. Growth patterns of various fadD mutants on plant-based perfumery substances, citronellic and geranic acids, as sole carbon and energy sources indicated that fadD4 is also involved in the degradation of these plant-derived compounds. A decrease in fitness of the sextuple fadD mutant, relative to the ΔfadD1D2 mutant, was only observed during BALB/c mouse lung infection at 24 h. PMID:23737986

  18. Lethality of glnD null mutations in Azotobacter vinelandii is suppressible by prevention of glutamine synthetase adenylylation.

    Science.gov (United States)

    Colnaghi, R; Rudnick, P; He, L; Green, A; Yan, D; Larson, E; Kennedy, C

    2001-05-01

    GlnD is a pivotal protein in sensing intracellular levels of fixed nitrogen and has been best studied in enteric bacteria, where it reversibly uridylylates two related proteins, PII and GlnK. The uridylylation state of these proteins determines the activities of glutamine synthetase (GS) and NtrC. Results presented here demonstrate that glnD is an essential gene in Azotobacter vinelandii. Null glnD mutations were introduced into the A. vinelandii genome, but none could be stably maintained unless a second mutation was present that resulted in unregulated activity of GS. One mutation, gln-71, occurred spontaneously to give strain MV71, which failed to uridylylate the GlnK protein. The second, created by design, was glnAY407F (MV75), altering the adenylylation site of GS. The gln-71 mutation is probably located in glnE, encoding adenylyltransferase, because introducing the Escherichia coli glnE gene into MV72, a glnD(+) derivative of MV71, restored the regulation of GS activity. GlnK-UMP is therefore apparently required for GS to be sufficiently deadenylylated in A. vinelandii for growth to occur. The DeltaglnD GS(c) isolates were Nif(-), which could be corrected by introducing a nifL mutation, confirming a role for GlnD in mediating nif gene regulation via some aspect of the NifL/NifA interaction. MV71 was unexpectedly NtrC(+), suggesting that A. vinelandii NtrC activity might be regulated differently than in enteric organisms. PMID:11320130

  19. Functional substitution of a eukaryotic glycyl-tRNA synthetase with an evolutionarily unrelated bacterial cognate enzyme.

    Directory of Open Access Journals (Sweden)

    Chin-I Chien

    Full Text Available Two oligomeric types of glycyl-tRNA synthetase (GlyRS are found in nature: a α2 type and a α2β2 type. The former has been identified in all three kingdoms of life and often pairs with tRNAGly that carries an A73 discriminator base, while the latter is found only in bacteria and chloroplasts and is almost always coupled with tRNAGly that contains U73. In the yeast Saccharomyces cerevisiae, a single GlyRS gene, GRS1, provides both the cytoplasmic and mitochondrial functions, and tRNAGly isoacceptors in both compartments possess A73. We showed herein that Homo sapiens and Arabidopsis thaliana cytoplasmic GlyRSs (both α2-type enzymes can rescue both the cytoplasmic and mitochondrial defects of a yeast grs1- strain, while Escherichia coli GlyRS (a α2β2-type enzyme and A. thaliana organellar GlyRS (a (αβ2-type enzyme failed to rescue either defect of the yeast mull allele. However, a head-to-tail αβ fusion of E. coli GlyRS effectively supported the mitochondrial function. Our study suggests that a α2-type eukaryotic GlyRS may be functionally substituted with a α2β2-type bacterial cognate enzyme despite their remote evolutionary relationships.

  20. Knockdown of asparagine synthetase by RNAi suppresses cell growth in human melanoma cells and epidermoid carcinoma cells.

    Science.gov (United States)

    Li, Hui; Zhou, Fusheng; Du, Wenhui; Dou, Jinfa; Xu, Yu; Gao, Wanwan; Chen, Gang; Zuo, Xianbo; Sun, Liangdan; Zhang, Xuejun; Yang, Sen

    2016-05-01

    Melanoma, the most aggressive form of skin cancer, causes more than 40,000 deaths each year worldwide. And epidermoid carcinoma is another major form of skin cancer, which could be studied together with melanoma in several aspects. Asparagine synthetase (ASNS) gene encodes an enzyme that catalyzes the glutamine- and ATP-dependent conversion of aspartic acid to asparagine, and its expression is associated with the chemotherapy resistance and prognosis in several human cancers. The present study aims to explore the potential role of ASNS in melanoma cells A375 and human epidermoid carcinoma cell line A431. We applied a lentivirus-mediated RNA interference (RNAi) system to study its function in cell growth of both cells. The results revealed that inhibition of ASNS expression by RNAi significantly suppressed the growth of melanoma cells and epidermoid carcinoma cells, and induced a G0/G1 cell cycle arrest in melanoma cells. Knockdown of ASNS in A375 cells remarkably downregulated the expression levels of CDK4, CDK6, and Cyclin D1, and upregulated the expression of p21. Therefore, our study provides evidence that ASNS may represent a potential therapeutic target for the treatment of melanoma. PMID:25858017

  1. The T1405N carbamoyl phosphate synthetase polymorphism does not affect plasma arginine concentrations in preterm infants.

    Directory of Open Access Journals (Sweden)

    Rob M J Moonen

    Full Text Available BACKGROUND: A C-to-A nucleotide transversion (T1405N in the gene that encodes carbamoyl-phosphate synthetase 1 (CPS1 has been associated with changes in plasma concentrations of L-arginine in term and near term infants but not in adults. In preterm infants homozygosity for the CPS1 Thr1405 variant (CC genotype was associated with an increased risk of having necrotizing enterocolitis (NEC. Plasma L-arginine concentrations are decreased in preterm infants with NEC. AIM: To examine the putative association between the CPS1 T1405N polymorphism and plasma arginine concentrations in preterm infants. METHODS: Prospective multicenter cohort study. Plasma and DNA samples were collected from 128 preterm infants (<30 weeks between 6 and 12 hours after birth. Plasma amino acid and CPS1 T1405N polymorphism analysis were performed. RESULTS: Distribution of genotypes did not differ between the preterm (CC:CA:AA = 55.5%:33.6%:10.9%, n = 128 and term infants (CC:CA:AA = 54.2%:35.4%:10.4%, n = 96. There was no association between the CPS1 genotype and plasma L-arginine or L-citrulline concentration, or the ornithine to citrulline ratio, which varies inversely with CPS1 activity. Also the levels of asymmetric dimethylarginine, and symmetric dimethylarginine were not significantly different among the three genotypes. CONCLUSIONS: The present study in preterm infants did not confirm the earlier reported association between CPS1 genotype and L-arginine levels in term infants.

  2. Functional analyses of three acyl-CoA synthetases involved in bile acid degradation in Pseudomonas putida DOC21.

    Science.gov (United States)

    Barrientos, Álvaro; Merino, Estefanía; Casabon, Israël; Rodríguez, Joaquín; Crowe, Adam M; Holert, Johannes; Philipp, Bodo; Eltis, Lindsay D; Olivera, Elías R; Luengo, José M

    2015-01-01

    Pseudomonas putida DOC21, a soil-dwelling proteobacterium, catabolizes a variety of steroids and bile acids. Transposon mutagenesis and bioinformatics analyses identified four clusters of steroid degradation (std) genes encoding a single catabolic pathway. The latter includes three predicted acyl-CoA synthetases encoded by stdA1, stdA2 and stdA3 respectively. The ΔstdA1 and ΔstdA2 deletion mutants were unable to assimilate cholate or other bile acids but grew well on testosterone or 4-androstene-3,17-dione (AD). In contrast, a ΔstdA3 mutant grew poorly in media containing either testosterone or AD. When cells were grown with succinate in the presence of cholate, ΔstdA1 accumulated Δ(1/4) -3-ketocholate and Δ(1,4) -3-ketocholate, whereas ΔstdA2 only accumulated 7α,12α-dihydroxy-3-oxopregna-1,4-diene-20-carboxylate (DHOPDC). When incubated with testosterone or bile acids, ΔstdA3 accumulated 3aα-H-4α(3'propanoate)-7aβ-methylhexahydro-1,5-indanedione (HIP) or the corresponding hydroxylated derivative. Biochemical analyses revealed that StdA1 converted cholate, 3-ketocholate, Δ(1/4) -3-ketocholate, and Δ(1,4) -3-ketocholate to their CoA thioesters, while StdA2 transformed DHOPDC to DHOPDC-CoA. In contrast, purified StdA3 catalysed the CoA thioesterification of HIP and its hydroxylated derivatives. Overall, StdA1, StdA2 and StdA3 are acyl-CoA synthetases required for the complete degradation of bile acids: StdA1 and StdA2 are involved in degrading the C-17 acyl chain, whereas StdA3 initiates degradation of the last two steroid rings. The study highlights differences in steroid catabolism between Proteobacteria and Actinobacteria.

  3. Properties of asparagine synthetase in asparagine-independent variants of Jensen rat sarcoma cells induced by 5-azacytidine.

    OpenAIRE

    Sugiyama, R H; Arfin, S M; Harris, M.

    1983-01-01

    Jensen rat sarcoma cells in culture require L-asparagine for growth and lack detectable levels of asparagine synthetase. Cultures exposed for 24 h to graded concentrations of 5-azacytidine give rise to asparagine-independent variants in high frequency. These prototrophs are stable phenotypically whether maintained in the presence or absence of L-asparagine. Asparagine synthetase activity in several variant clones was uniform in thermolability and several kinetic parameters, as well as in immu...

  4. Compositions of orthogonal lysyl-tRNA and aminoacyl-tRNA synthetase pairs and uses thereof

    Energy Technology Data Exchange (ETDEWEB)

    Anderson, J. Christopher; Wu, Ning; Santoro, Stephen; Schultz, Peter G

    2014-03-11

    Compositions and methods of producing components of protein biosynthetic machinery that include orthogonal lysyl-tRNAs, orthogonal lysyl-aminoacyl-tRNA synthetases, and orthogonal pairs of lysyl-tRNAs/synthetases, which incorporate homoglutamines into proteins are provided in response to a four base codon. Methods for identifying these orthogonal pairs are also provided along with methods of producing proteins with homoglutamines using these orthogonal pairs.

  5. Reduced density of glutamine synthetase immunoreactive astrocytes in different cortical areas in major depression but not in bipolar I disorder

    Directory of Open Access Journals (Sweden)

    Hans-Gert eBernstein

    2015-08-01

    Full Text Available There is increasing evidence for disturbances within the glutamate system in patients with affective disorders, which involve disruptions of the glutamate-glutamine- cycle. The mainly astroglia-located enzyme glutamine synthetase catalyzes the ATP-dependent condensation of ammonia and glutamate to form glutamine, thus playing a central role in glutamate and glutamine homoeostasis. However, glutamine synthetase is also expressed in numerous oligodendrocytes, another class of glial cells implicated in mood disorder pathology. To learn more about the role of glia-associated glutamine synthetase in mental illnesses, we decided to find out if numerical densities of glial cells immunostained for the enzyme protein differ between subjects with major depressive disorder, bipolar disorder and psychically healthy control cases. Counting of glutamine synthetase expressing astrocytes and oligodendrocytes in eight cortical and two subcortical brain regions of subjects with mood disorder (N=14, bipolar disorder (N=15 and controls (N=16 revealed that in major depression the densities of astrocytes were significantly reduced in some cortical but not subcortical gray matter areas, whereas no changes were found for oligodendrocytes. In bipolar disorder no alterations of glutamine synthetase-immunoreactive glia were found. From our findings we conclude that (1 glutamine synthetase expressing astrocytes are prominently involved in glutamate-related disturbances in major depression, but not in bipolar disorder and (2 glutamine synthetase expressing oligodendrocytes, though being present in significant numbers in prefrontal cortical areas, play a minor (if any role in mood disorder pathology. The latter assumption is supported by findings of others showing that - at least in the mouse brain cortex - glutamine synthetase immunoreactive oligodendroglial cells are unable to contribute to the glutamate-glutamine cycle due to the complete lack of amino acid transporters

  6. Molecular analysis of mutants of the Neurospora adenylosuccinate synthetase locus

    Indian Academy of Sciences (India)

    A. Wiest; A. J. McCarthy; R. Schnittker; K. McCluskey

    2012-08-01

    The ad-8 gene of Neurospora crassa, in addition to being used for the study of purine biology, has been extensively studied as a model for gene structure, mutagenesis and intralocus recombination. Because of this there is an extensive collection of well-characterized N. crassa ad-8 mutants in the Fungal Genetics Stock Center collection. Among these are spontaneous mutants and mutants induced with X-ray, UV or chemical mutagens. The specific lesions in these mutants have been genetically mapped at high resolution. We have sequenced the ad-8 locus from 13 of these mutants and identified the molecular nature of the mutation in each strain. We compare the historical fine-structure map to the DNA and amino acid sequence of each allele. The placement of the individual lesions in the fine-structure map was more accurate at the 5′ end of the gene and no mutants were identified in the 3′ untranslated region of this gene. We additionally analysed ad-8+ alleles in 18 N. crassa strains subjected to whole-genome sequence analysis and describe the variability among Neurospora strains and among fungi and other organisms.

  7. eth-1, the Neurospora crassa locus encoding S-adenosylmethionine synthetase: Molecular cloning, sequence analysis and in vivo overexpression

    Energy Technology Data Exchange (ETDEWEB)

    Mautino, M.R.; Barra, J.L.; Rosa, A.L. [Universidad Nacional de Cordoba (Argentina)

    1996-03-01

    Intense biochemical and genetic research on the eth-1 mutant of Neurospora crassa suggested that this locus might encode S-adenosylmethionine synthetase (S-Adomet synthetase). We have used protoplast transformation and phenotypic rescue of a thermosensitive phenotype associated with the eth-1 mutation to clone the locus. Nucleotide sequence analysis demonstrated that it encodes S-Adomet synthetase. Homology analyses of prokaryotic, fungal and higher eukaryotic S-Adomet synthetase polypeptide sequences show a remarkable evolutionary conservation of the enzyme. N. crassa strains carrying S-Adomet synthetase coding sequences fused to a strong heterologous promoter were constructed to assess the phenotypic consequences of in vivo S-Adomet synthetase overexpression. Studies of growth rates and microscopic examination of vegetative development revealed that normal growth and morphogenesis take place in N. crassa even at abnormally high levels of cellular S-Adomet. The degree of cytosine methylation of a naturally methylated genomic region was dependent on the cellular levels of S-Adomet. We conclude that variation in S-Adomet levels in N. crassa cells, which in addition to the status of genomic DNA methylation could modify the flux of other S-Adomet-dependent metabolic pathways, does not affect growth rate or morphogenesis. 90 refs., 5 figs., 1 tab.

  8. Human holocarboxylase synthetase with a start site at methionine-58 is the predominant nuclear variant of this protein and has catalytic activity

    International Nuclear Information System (INIS)

    Highlights: → Unambiguous evidence is provided that methionine-58 serves as an in-frame alternative translation site for holocarboxylase synthetase (HLCS58). → Full-length HLCS and HLCS58 enter the nucleus, but HLCS58 is the predominant variant. → HLCS58 has biological activity as biotin protein ligase. -- Abstract: Holocarboxylase synthetase (HLCS) catalyzes the covalent binding of biotin to both carboxylases in extranuclear structures and histones in cell nuclei, thereby mediating important roles in intermediary metabolism, gene regulation, and genome stability. HLCS has three putative translational start sites (methionine-1, -7, and -58), but lacks a strong nuclear localization sequence that would explain its participation in epigenetic events in the cell nucleus. Recent evidence suggests that small quantities of HLCS with a start site in methionine-58 (HLCS58) might be able to enter the nuclear compartment. We generated the following novel insights into HLCS biology. First, we generated a novel HLCS fusion protein vector to demonstrate that methionine-58 is a functional translation start site in human cells. Second, we used confocal microscopy and western blots to demonstrate that HLCS58 enters the cell nucleus in meaningful quantities, and that full-length HLCS localizes predominantly in the cytoplasm but may also enter the nucleus. Third, we produced recombinant HLCS58 to demonstrate its biological activity toward catalyzing the biotinylation of both carboxylases and histones. Collectively, these observations are consistent with roles of HLCS58 and full-length HLCS in nuclear events. We conclude this report by proposing a novel role for HLCS in epigenetic events, mediated by physical interactions between HLCS and other chromatin proteins as part of a larger multiprotein complex that mediates gene repression.

  9. The sRNA NsiR4 is involved in nitrogen assimilation control in cyanobacteria by targeting glutamine synthetase inactivating factor IF7.

    Science.gov (United States)

    Klähn, Stephan; Schaal, Christoph; Georg, Jens; Baumgartner, Desirée; Knippen, Gernot; Hagemann, Martin; Muro-Pastor, Alicia M; Hess, Wolfgang R

    2015-11-10

    Glutamine synthetase (GS), a key enzyme in biological nitrogen assimilation, is regulated in multiple ways in response to varying nitrogen sources and levels. Here we show a small regulatory RNA, NsiR4 (nitrogen stress-induced RNA 4), which plays an important role in the regulation of GS in cyanobacteria. NsiR4 expression in the unicellular Synechocystis sp. PCC 6803 and in the filamentous, nitrogen-fixing Anabaena sp. PCC 7120 is stimulated through nitrogen limitation via NtcA, the global transcriptional regulator of genes involved in nitrogen metabolism. NsiR4 is widely conserved throughout the cyanobacterial phylum, suggesting a conserved function. In silico target prediction, transcriptome profiling on pulse overexpression, and site-directed mutagenesis experiments using a heterologous reporter system showed that NsiR4 interacts with the 5'UTR of gifA mRNA, which encodes glutamine synthetase inactivating factor (IF)7. In Synechocystis, we observed an inverse relationship between the levels of NsiR4 and the accumulation of IF7 in vivo. This NsiR4-dependent modulation of gifA (IF7) mRNA accumulation influenced the glutamine pool and thus [Formula: see text] assimilation via GS. As a second target, we identified ssr1528, a hitherto uncharacterized nitrogen-regulated gene. Competition experiments between WT and an ΔnsiR4 KO mutant showed that the lack of NsiR4 led to decreased acclimation capabilities of Synechocystis toward oscillating nitrogen levels. These results suggest a role for NsiR4 in the regulation of nitrogen metabolism in cyanobacteria, especially for the adaptation to rapid changes in available nitrogen sources and concentrations. NsiR4 is, to our knowledge, the first identified bacterial sRNA regulating the primary assimilation of a macronutrient.

  10. The sRNA NsiR4 is involved in nitrogen assimilation control in cyanobacteria by targeting glutamine synthetase inactivating factor IF7.

    Science.gov (United States)

    Klähn, Stephan; Schaal, Christoph; Georg, Jens; Baumgartner, Desirée; Knippen, Gernot; Hagemann, Martin; Muro-Pastor, Alicia M; Hess, Wolfgang R

    2015-11-10

    Glutamine synthetase (GS), a key enzyme in biological nitrogen assimilation, is regulated in multiple ways in response to varying nitrogen sources and levels. Here we show a small regulatory RNA, NsiR4 (nitrogen stress-induced RNA 4), which plays an important role in the regulation of GS in cyanobacteria. NsiR4 expression in the unicellular Synechocystis sp. PCC 6803 and in the filamentous, nitrogen-fixing Anabaena sp. PCC 7120 is stimulated through nitrogen limitation via NtcA, the global transcriptional regulator of genes involved in nitrogen metabolism. NsiR4 is widely conserved throughout the cyanobacterial phylum, suggesting a conserved function. In silico target prediction, transcriptome profiling on pulse overexpression, and site-directed mutagenesis experiments using a heterologous reporter system showed that NsiR4 interacts with the 5'UTR of gifA mRNA, which encodes glutamine synthetase inactivating factor (IF)7. In Synechocystis, we observed an inverse relationship between the levels of NsiR4 and the accumulation of IF7 in vivo. This NsiR4-dependent modulation of gifA (IF7) mRNA accumulation influenced the glutamine pool and thus [Formula: see text] assimilation via GS. As a second target, we identified ssr1528, a hitherto uncharacterized nitrogen-regulated gene. Competition experiments between WT and an ΔnsiR4 KO mutant showed that the lack of NsiR4 led to decreased acclimation capabilities of Synechocystis toward oscillating nitrogen levels. These results suggest a role for NsiR4 in the regulation of nitrogen metabolism in cyanobacteria, especially for the adaptation to rapid changes in available nitrogen sources and concentrations. NsiR4 is, to our knowledge, the first identified bacterial sRNA regulating the primary assimilation of a macronutrient. PMID:26494284

  11. Human holocarboxylase synthetase with a start site at methionine-58 is the predominant nuclear variant of this protein and has catalytic activity

    Energy Technology Data Exchange (ETDEWEB)

    Bao, Baolong [Department of Nutrition and Health Sciences, University of Nebraska at Lincoln, Lincoln, NE (United States); Key Laboratory of Exploration and Utilization of Aquatic Genetic Resources, Shanghai Ocean University, Ministry of Education (China); Wijeratne, Subhashinee S.K.; Rodriguez-Melendez, Rocio [Department of Nutrition and Health Sciences, University of Nebraska at Lincoln, Lincoln, NE (United States); Zempleni, Janos, E-mail: jzempleni2@unl.edu [Department of Nutrition and Health Sciences, University of Nebraska at Lincoln, Lincoln, NE (United States)

    2011-08-19

    Highlights: {yields} Unambiguous evidence is provided that methionine-58 serves as an in-frame alternative translation site for holocarboxylase synthetase (HLCS58). {yields} Full-length HLCS and HLCS58 enter the nucleus, but HLCS58 is the predominant variant. {yields} HLCS58 has biological activity as biotin protein ligase. -- Abstract: Holocarboxylase synthetase (HLCS) catalyzes the covalent binding of biotin to both carboxylases in extranuclear structures and histones in cell nuclei, thereby mediating important roles in intermediary metabolism, gene regulation, and genome stability. HLCS has three putative translational start sites (methionine-1, -7, and -58), but lacks a strong nuclear localization sequence that would explain its participation in epigenetic events in the cell nucleus. Recent evidence suggests that small quantities of HLCS with a start site in methionine-58 (HLCS58) might be able to enter the nuclear compartment. We generated the following novel insights into HLCS biology. First, we generated a novel HLCS fusion protein vector to demonstrate that methionine-58 is a functional translation start site in human cells. Second, we used confocal microscopy and western blots to demonstrate that HLCS58 enters the cell nucleus in meaningful quantities, and that full-length HLCS localizes predominantly in the cytoplasm but may also enter the nucleus. Third, we produced recombinant HLCS58 to demonstrate its biological activity toward catalyzing the biotinylation of both carboxylases and histones. Collectively, these observations are consistent with roles of HLCS58 and full-length HLCS in nuclear events. We conclude this report by proposing a novel role for HLCS in epigenetic events, mediated by physical interactions between HLCS and other chromatin proteins as part of a larger multiprotein complex that mediates gene repression.

  12. Aminoacyl-tRNA synthetase dependent angiogenesis revealed by a bioengineered macrolide inhibitor.

    Science.gov (United States)

    Mirando, Adam C; Fang, Pengfei; Williams, Tamara F; Baldor, Linda C; Howe, Alan K; Ebert, Alicia M; Wilkinson, Barrie; Lounsbury, Karen M; Guo, Min; Francklyn, Christopher S

    2015-08-14

    Aminoacyl-tRNA synthetases (AARSs) catalyze an early step in protein synthesis, but also regulate diverse physiological processes in animal cells. These include angiogenesis, and human threonyl-tRNA synthetase (TARS) represents a potent pro-angiogenic AARS. Angiogenesis stimulation can be blocked by the macrolide antibiotic borrelidin (BN), which exhibits a broad spectrum toxicity that has discouraged deeper investigation. Recently, a less toxic variant (BC194) was identified that potently inhibits angiogenesis. Employing biochemical, cell biological, and biophysical approaches, we demonstrate that the toxicity of BN and its derivatives is linked to its competition with the threonine substrate at the molecular level, which stimulates amino acid starvation and apoptosis. By separating toxicity from the inhibition of angiogenesis, a direct role for TARS in vascular development in the zebrafish could be demonstrated. Bioengineered natural products are thus useful tools in unmasking the cryptic functions of conventional enzymes in the regulation of complex processes in higher metazoans.

  13. Effects of aeration on formation and localization of the acetyl coenzyme A synthetases of Saccharomyces cerevisiae

    Science.gov (United States)

    Klein, H. P.; Jahnke, L.

    1979-01-01

    Previous studies on the yeast Saccharomyces cerevisiae have shown that two different forms of the enzyme acetyl coenzyme A synthetase (ACS) are present, depending on the conditions under which the cells are grown. The paper evaluates the usefulness of a method designed to assay both synthetases simultaneously in yeast homogenates. The data presented confirm the possibility of simultaneous detection and estimation of the amount of both ACSs of S. cerevisiae in crude homogenates of this strain, making possible the study of physiological factors involved in the formation of these isoenzymes. One important factor for specifying which of the two enzymes is found in these yeast cells is the presence or absence of oxygen in their environment. Aeration not only affects the ratio of the two ACSs but also appears to affect the cellular distribution of these enzymes. Most of the data presented suggest the possibility that the nonaerobic ACS may serve as a precursor to the aerobic form.

  14. Natural aminoacyl tRNA synthetase fragment enhances cardiac function after myocardial infarction.

    Directory of Open Access Journals (Sweden)

    Margaret E McCormick

    Full Text Available A naturally-occurring fragment of tyrosyl-tRNA synthetase (TyrRS has been shown in higher eukaryotes to 'moonlight' as a pro-angiogenic cytokine in addition to its primary role in protein translation. Pro-angiogenic cytokines have previously been proposed to be promising therapeutic mechanisms for the treatment of myocardial infarction. Here, we show that systemic delivery of the natural fragment of TyRS, mini-TyrRS, improves heart function in mice after myocardial infarction. This improvement is associated with reduced formation of scar tissue, increased angiogenesis of cardiac capillaries, recruitment of c-kitpos cells and proliferation of myocardial fibroblasts. This work demonstrates that mini-TyrRS has beneficial effects on cardiac repair and regeneration and offers support for the notion that elucidation of the ever expanding repertoire of noncanonical functions of aminoacyl tRNA synthetases offers unique opportunities for development of novel therapeutics.

  15. Reversible lysine acetylation controls the activity of the mitochondrial enzyme acetyl-CoA synthetase 2

    DEFF Research Database (Denmark)

    Schwer, Bjoern; Bunkenborg, Jakob; Verdin, Regis O;

    2006-01-01

    by SIRT3 activates the acetyl-CoA synthetase activity of AceCS2. This report identifies the first acetylated substrate protein of SIRT3. Our findings show that a mammalian sirtuin directly controls the activity of a metabolic enzyme by means of reversible lysine acetylation. Because the activity......We report that human acetyl-CoA synthetase 2 (AceCS2) is a mitochondrial matrix protein. AceCS2 is reversibly acetylated at Lys-642 in the active site of the enzyme. The mitochondrial sirtuin SIRT3 interacts with AceCS2 and deacetylates Lys-642 both in vitro and in vivo. Deacetylation of AceCS2...

  16. N-partitioning, nitrate reductase and glutamine synthetase activities in two contrasting varieties of maize

    OpenAIRE

    Machado Altair Toledo; Sodek Ladaslav; Fernandes Mânlio Silvestre

    2001-01-01

    In order to identify useful parameters for maize genetic breeding programs aiming at a more efficient use of N, two maize varieties of contrasting N efficiency, Sol da Manhã NF (efficient) and Catetão (inefficient) were compared. Experiments were carried out under field and greenhouse conditions, at low and high N levels. The parameters analysed included total and relative plant and grain N content, biomass and the activities of nitrate reductase and glutamine synthetase in different parts of...

  17. Nucleotide synthetase ribozymes may have emerged first in the RNA world

    OpenAIRE

    Ma, Wentao; Yu, Chunwu; Zhang, Wentao; Hu, Jiming

    2007-01-01

    Though the “RNA world” hypothesis has gained a central role in ideas concerning the origin of life, the scenario concerning its emergence remains uncertain. It has been speculated that the first scene may have been the emergence of a template-dependent RNA synthetase ribozyme, which catalyzed its own replication: thus, “RNA replicase.” However, the speculation remains uncertain, primarily because of the large sequence length requirement of such a replicase and the lack of a convincing mechani...

  18. Aminoacyl-tRNA Synthetases, the Genetic Code, and the Evolutionary Process

    OpenAIRE

    Woese, Carl R.; Olsen, Gary J; Ibba, Michael; Söll, Dieter

    2000-01-01

    The aminoacyl-tRNA synthetases (AARSs) and their relationship to the genetic code are examined from the evolutionary perspective. Despite a loose correlation between codon assignments and AARS evolutionary relationships, the code is far too highly structured to have been ordered merely through the evolutionary wanderings of these enzymes. Nevertheless, the AARSs are very informative about the evolutionary process. Examination of the phylogenetic trees for each of the AARSs reveals the followi...

  19. Glutamine synthetase immunor present in oligodendroglia of regions of the central nervous system

    Science.gov (United States)

    D'Amelio, Fernando; Eng, Lawrence F.; Gibbs, Michael A.

    1990-01-01

    Glutamine synthetase immunoreactive oligodendrocytes were identified in the cerebral cortex, cerebellum, brain stem, and spinal cord. They were mostly confined to the gray matter, particularly close to neurons and processes. The white matter showed few immunoreactive oligodendroglia. It was suggested that some type of oligodendrocytes, specially those in perineuronal location, might fulfill a functional role more akin to astrocytes than to the normally myelinating oligodendroglia.

  20. Structural basis for full-spectrum inhibition of translational functions on a tRNA synthetase

    OpenAIRE

    Fang, Pengfei; Yu, Xue; Jeong, Seung Jae; Mirando, Adam; Chen, Kaige; Chen, Xin; Kim, Sunghoon; Francklyn, Christopher S.; Guo, Min

    2015-01-01

    The polyketide natural product borrelidin displays antibacterial, antifungal, antimalarial, anticancer, insecticidal and herbicidal activities through the selective inhibition of threonyl-tRNA synthetase (ThrRS). How borrelidin simultaneously attenuates bacterial growth and suppresses a variety of infections in plants and animals is not known. Here we show, using X-ray crystal structures and functional analyses, that a single molecule of borrelidin simultaneously occupies four distinct subsit...

  1. Genetic identification of essential indels and domains in carbamoyl phosphate synthetase II of Toxoplasma gondii

    OpenAIRE

    Fox, Barbara A; Ristuccia, Jessica G.; Bzik, David J.

    2008-01-01

    New treatments need to be developed for the significant human diseases of toxoplasmosis and malaria to circumvent problems with current treatments and drug resistance. Apicomplexan parasites causing these lethal diseases are deficient in pyrimidine salvage suggesting that selective inhibition of de novo pyrimidine biosynthesis can lead to a severe loss of UMP and dTMP pools thereby inhibiting parasite RNA and DNA synthesis. Disruption of Toxoplasma gondii carbamoyl phosphate synthetase II (CP...

  2. Structural basis for the binding of succinate to succinyl-CoA synthetase.

    Science.gov (United States)

    Huang, Ji; Fraser, Marie E

    2016-08-01

    Succinyl-CoA synthetase catalyzes the only step in the citric acid cycle that provides substrate-level phosphorylation. Although the binding sites for the substrates CoA, phosphate, and the nucleotides ADP and ATP or GDP and GTP have been identified, the binding site for succinate has not. To determine this binding site, pig GTP-specific succinyl-CoA synthetase was crystallized in the presence of succinate, magnesium ions and CoA, and the structure of the complex was determined by X-ray crystallography to 2.2 Å resolution. Succinate binds in the carboxy-terminal domain of the β-subunit. The succinate-binding site is near both the active-site histidine residue that is phosphorylated in the reaction and the free thiol of CoA. The carboxy-terminal domain rearranges when succinate binds, burying this active site. However, succinate is not in position for transfer of the phosphoryl group from phosphohistidine. Here, it is proposed that when the active-site histidine residue has been phosphorylated by GTP, the phosphohistidine displaces phosphate and triggers the movement of the carboxylate of succinate into position to be phosphorylated. The structure shows why succinyl-CoA synthetase is specific for succinate and does not react appreciably with citrate nor with the other C4-dicarboxylic acids of the citric acid cycle, fumarate and oxaloacetate, but shows some activity with L-malate. PMID:27487822

  3. Brucella melitensis Methionyl-tRNA-Synthetase (MetRS), a Potential Drug Target for Brucellosis

    Science.gov (United States)

    Ranade, Ranae M.; Zhang, Zhongsheng; Dranow, David M.; Myers, Janette B.; Choi, Ryan; Nakazawa Hewitt, Steve; Edwards, Thomas E.; Davies, Douglas R.; Lorimer, Donald; Boyle, Stephen M.; Barrett, Lynn K.; Buckner, Frederick S.; Fan, Erkang; Van Voorhis, Wesley C.

    2016-01-01

    We investigated Brucella melitensis methionyl-tRNA-synthetase (BmMetRS) with molecular, structural and phenotypic methods to learn if BmMetRS is a promising target for brucellosis drug development. Recombinant BmMetRS was expressed, purified from wild type Brucella melitensis biovar Abortus 2308 strain ATCC/CRP #DD-156 and screened by a thermal melt assay against a focused library of one hundred previously classified methionyl-tRNA-synthetase inhibitors of the blood stage form of Trypanosoma brucei. Three compounds showed appreciable shift of denaturation temperature and were selected for further studies on inhibition of the recombinant enzyme activity and cell viability against wild type B. melitensis strain 16M. BmMetRS protein complexed with these three inhibitors resolved into three-dimensional crystal structures and was analyzed. All three selected methionyl-tRNA-synthetase compounds inhibit recombinant BmMetRS enzymatic functions in an aminoacylation assay at varying concentrations. Furthermore, growth inhibition of B. melitensis strain 16M by the compounds was shown. Inhibitor-BmMetRS crystal structure models were used to illustrate the molecular basis of the enzyme inhibition. Our current data suggests that BmMetRS is a promising target for brucellosis drug development. However, further studies are needed to optimize lead compound potency, efficacy and safety as well as determine the pharmacokinetics, optimal dosage, and duration for effective treatment. PMID:27500735

  4. Crystallization and preliminary X-ray diffraction studies of FAD synthetase from Corynebacterium ammoniagenes

    International Nuclear Information System (INIS)

    Native and selenomethionine-labelled FAD synthetase from C. ammoniagenes have been crystallized by the hanging-drop vapour-diffusion method. A MAD data set for SeMet-labelled FAD synthetase was collected to 2.42 Å resolution, while data sets were collected to 1.95 Å resolution for the native crystals. FAD synthetase from Corynebacterium ammoniagenes (CaFADS), a prokaryotic bifunctional enzyme that catalyses the phosphorylation of riboflavin as well as the adenylylation of FMN, has been crystallized using the hanging-drop vapour-diffusion method at 277 K. Diffraction-quality cubic crystals of native and selenomethionine-labelled (SeMet-CaFADS) protein belonged to the cubic space group P213, with unit-cell parameters a = b = c = 133.47 Å and a = b = c = 133.40 Å, respectively. Data sets for native and SeMet-containing crystals were collected to 1.95 and 2.42 Å resolution, respectively

  5. Oxidative modification of glutamine synthetase. I. Inactivation is due to loss of one histidine residue.

    Science.gov (United States)

    Levine, R L

    1983-10-10

    Intracellular proteolytic degradation of glutamine synthetase occurs in two distinct steps in Escherichia coli (Levine, R. L., Oliver, C. N., Fulks, R. M., and Stadtman, E. R. (1981) Proc. Natl. Acad. Sci. U.S.A. 78, 2120-2124). In the first step, a mixed function oxidation modifies the glutamine synthetase. The modified enzyme, which is catalytically inactive, becomes susceptible to proteolytic attack. In the second step, a protease specific for the modified enzyme catalyzes the actual proteolytic degradation. The oxidatively modified glutamine synthetase was studied to determine the chemical differences between it and the native enzyme. Only a single alteration was found; one of sixteen histidine residues/subunit was altered by the oxidative modification. The modification introduced a carbonyl group into the protein, permitting isolation of a stable dinitrophenylhydrazone. No other differences were detected between the native and modified proteins. Specifically, the cysteine, methionine, phenylalanine, tyrosine, and tryptophan contents were not altered. A number of other prokaryotic and eukaryotic enzymes are also susceptible to oxidative modification. This covalent modification may be important in intracellular proteolysis, in mammalian host defense systems, in prevention of autolysis, in aging processes, and in oxygen toxicity.

  6. Structural basis for the binding of succinate to succinyl-CoA synthetase.

    Science.gov (United States)

    Huang, Ji; Fraser, Marie E

    2016-08-01

    Succinyl-CoA synthetase catalyzes the only step in the citric acid cycle that provides substrate-level phosphorylation. Although the binding sites for the substrates CoA, phosphate, and the nucleotides ADP and ATP or GDP and GTP have been identified, the binding site for succinate has not. To determine this binding site, pig GTP-specific succinyl-CoA synthetase was crystallized in the presence of succinate, magnesium ions and CoA, and the structure of the complex was determined by X-ray crystallography to 2.2 Å resolution. Succinate binds in the carboxy-terminal domain of the β-subunit. The succinate-binding site is near both the active-site histidine residue that is phosphorylated in the reaction and the free thiol of CoA. The carboxy-terminal domain rearranges when succinate binds, burying this active site. However, succinate is not in position for transfer of the phosphoryl group from phosphohistidine. Here, it is proposed that when the active-site histidine residue has been phosphorylated by GTP, the phosphohistidine displaces phosphate and triggers the movement of the carboxylate of succinate into position to be phosphorylated. The structure shows why succinyl-CoA synthetase is specific for succinate and does not react appreciably with citrate nor with the other C4-dicarboxylic acids of the citric acid cycle, fumarate and oxaloacetate, but shows some activity with L-malate.

  7. Directed evolution of adenylosuccinate synthetase from Bacillus subtilis and its application in metabolic engineering.

    Science.gov (United States)

    Wang, Xiaoyue; Wang, Guanglu; Li, Xinli; Fu, Jing; Chen, Tao; Wang, Zhiwen; Zhao, Xueming

    2016-08-10

    Adenylosuccinate synthetase (EC. 6.3.4.4) encoded by purA in Bacillus subtilis, catalyzing the first step of the conversion of IMP to AMP, plays an important role in flux distribution in the purine biosynthetic pathway. In this study, we described the use of site saturation mutagenesis to obtain a desired enzyme activity of adenylosuccinate synthetase and its application in flux regulation. Based on sequence alignment and structural modeling, a library of enzyme variants was created by a semi-rational evolution strategy in position Thr238 and Pro242. Other than purA deletion, the leaky mutation purA(P242N) partially reduced the flux towards AMP derived from IMP and increased the riboflavin synthesis precursor GTP, while also kept the requirement of ATP synthesis for cell growth. PurA(P242N) was introduced into an inosine-producing strain and resulted in an approximately 4.66-fold increase in inosine production, from 0.088±0.009g/L to 0.41±0.051g/L, in minimal medium without hypoxanthine accumulation. These results underline that the directed evolution of adenylosuccinate synthetase could tailor its activities and adjust metabolic flux. This mutation may provide a promising application in purine-based product accumulation, like inosine, guanosine and folate which are directly stemming from purine pathway in B. subtilis. PMID:27234879

  8. Interferon titer and the 2',5'-oligoadenylate-synthetase activity in rat thymus lymphocytes in conditions of Omeprazol-caused hypergastrinemia

    OpenAIRE

    Kompanets I. V.; Korotkiy О. G.; Karpovets T. P.; Pilipenko S. V.; Nikolska V. V.; Ostapchenko L. I.; Yankovsky D. S.

    2013-01-01

    The aim of this work was the determination of rat thymocytes response to hypergastrinemia evoked by hypoacidity and multiprobiotic «Symbiter® acidophilic concentrated» (symbiter) treatment via the estimation of the interferon (IFN) titer and 2', 5'-oligoadenylate (OA)-synthetase activity in lymphocytes. 2', 5'-OA-synthetase is the IFN-induced enzyme. Methods. The micromethod of IFN titer determination by antiviral activity, spectrophotometrical method of 2', 5'-OA-synthetase activity determin...

  9. Identification of PAD2 as a gamma-glutamylcysteine synthetase highlights the importance of glutathione in disease resistance of Arabidopsis.

    Science.gov (United States)

    Parisy, Vincent; Poinssot, Benoit; Owsianowski, Lucas; Buchala, Antony; Glazebrook, Jane; Mauch, Felix

    2007-01-01

    The Arabidopsis pad2-1 mutant belongs to a series of non-allelic camalexin-deficient mutants. It was originally described as showing enhanced susceptibility to virulent strains of Pseudomonas syringae and was later shown to be hyper-susceptible to the oomycete pathogen Phytophthora brassicae (formerly P. porri). Surprisingly, in both pathosystems, the disease susceptibility of pad2-1 was not caused by the camalexin deficiency, suggesting additional roles of PAD2 in disease resistance. The susceptibility of pad2-1 to P. brassicae was used to map the mutation to the gene At4g23100, which encodes gamma-glutamylcysteine synthetase (gamma-ECS, GSH1). GSH1 catalyzes the first committed step of glutathione (GSH) biosynthesis. The pad2-1 mutation caused an S to N transition at amino acid position 298 close to the active center. The conclusion that PAD2 encodes GSH1 is supported by several lines of evidence: (i) pad2-1 mutants contained only about 22% of wild-type amounts of GSH, (ii) genetic complementation of pad2-1 with wild-type GSH1 cDNA restored GSH production, accumulation of camalexin in response to P. syringae and resistance to P. brassicae and P. syringae, (iii) another GSH1 mutant, cad2-1, showed pad2-like phenotypes, and (iv) feeding of GSH to excised leaves of pad2-1 restored camalexin production and resistance to P. brassicae. Inoculation of Col-0 with P. brassicae caused a coordinated increase in the transcript abundance of GSH1 and GSH2, the gene encoding the second enzyme in GSH biosynthesis, and resulted in enhanced foliar GSH accumulation. The pad2-1 mutant showed enhanced susceptibility to additional pathogens, suggesting an important general role of GSH in disease resistance of Arabidopsis.

  10. Neurodegeneration in a Drosophila model of adrenoleukodystrophy: the roles of the Bubblegum and Double bubble acyl-CoA synthetases

    Directory of Open Access Journals (Sweden)

    Anna Sivachenko

    2016-04-01

    Full Text Available Debilitating neurodegenerative conditions with metabolic origins affect millions of individuals worldwide. Still, for most of these neurometabolic disorders there are neither cures nor disease-modifying therapies, and novel animal models are needed for elucidation of disease pathology and identification of potential therapeutic agents. To date, metabolic neurodegenerative disease has been modeled in animals with only limited success, in part because existing models constitute analyses of single mutants and have thus overlooked potential redundancy within metabolic gene pathways associated with disease. Here, we present the first analysis of a very-long-chain acyl-CoA synthetase (ACS double mutant. We show that the Drosophila bubblegum (bgm and double bubble (dbb genes have overlapping functions, and that the consequences of double knockout of both bubblegum and double bubble in the fly brain are profound, affecting behavior and brain morphology, and providing the best paradigm to date for an animal model of adrenoleukodystrophy (ALD, a fatal childhood neurodegenerative disease associated with the accumulation of very-long-chain fatty acids. Using this more fully penetrant model of disease to interrogate brain morphology at the level of electron microscopy, we show that dysregulation of fatty acid metabolism via disruption of ACS function in vivo is causal of neurodegenerative pathologies that are evident in both neuronal cells and their supporting cell populations, and leads ultimately to lytic cell death in affected areas of the brain. Finally, in an extension of our model system to the study of human disease, we describe our identification of an individual with leukodystrophy who harbors a rare mutation in SLC27a6 (encoding a very-long-chain ACS, a human homolog of bgm and dbb.

  11. Glutamine, insulin and glucocorticoids regulate glutamine synthetase expression in C2C12 myotubes, Hep G2 hepatoma cells and 3T3 L1 adipocytes

    OpenAIRE

    Wang, Yanxin; Watford, Malcolm

    2006-01-01

    The cell-specific regulation of glutamine synthetase expression was studied in three cell lines. In C2C12 myotubes, glucocorticoids increased the abundance of both glutamine synthetase protein and mRNA. Culture in the absence of glutamine also resulted in very high glutamine synthetase protein abundance but mRNA levels were unchanged. Glucocorticoids also increased the abundance of glutamine synthetase mRNA in Hep G2 hepatoma cells but this was not reflected in changes in protein abundance. C...

  12. Properties of 5-aminolaevulinate synthetase and its relationship to microsomal mixed-function oxidation in the southern armyworm (Spodoptera eridania).

    Science.gov (United States)

    Brattsten, L B; Wilkinson, C F

    1975-07-01

    1. Activity of 5-aminolaevulinate synthetase was measured in the midgut and other tissues of the last larval instar of the southern armyworm (Spodoptera eridania Cramer, formerly Prodenia eridania Cramer). 2. Optimum conditions for measuring the activity were established with respect to all variables involved and considerable differences from those reported for mammalian enzyme preparations were found. 3. Maximum activity (20 nmol/h per mg of protein) occurs 18-24 h after the fifth moult and thereafter decreases to trace amounts as the larvae age and approach pupation. 4. Synthetase activity was rapidly induced by oral administration (in the diet) of pentamethylbenzene, phenobarbital, diethyl 1,4-dihydro-2,4,6-trimethylpyridine-3, 5-dicarboxylate, and 2-allyl-2-isopropylacetamide. 5. Puromycin inhibited the induction of synthetase by pentamethylbenzene. 6. Induction of 5-aminolaevulinate synthetase correlated well with the induction of microsomal N-demethylation of p-chloro-N-methylaniline, except for phenobarbital, which induced the microsomal oxidase relatively more than the synthetase. PMID:1004

  13. Evaluation of dihydrofolate reductase and dihydropteroate synthetase genotypes that confer resistance to sulphadoxine-pyrimethamine in Plasmodium falciparum in Haiti

    Directory of Open Access Journals (Sweden)

    Carter Tamar E

    2012-08-01

    Full Text Available Abstract Background Malaria caused by Plasmodium falciparum infects roughly 30,000 individuals in Haiti each year. Haiti has used chloroquine (CQ as a first-line treatment for malaria for many years and as a result there are concerns that malaria parasites may develop resistance to CQ over time. Therefore it is important to prepare for alternative malaria treatment options should CQ resistance develop. In many other malaria-endemic regions, antifolates, particularly pyrimethamine (PYR and sulphadoxine (SDX treatment combination (SP, have been used as an alternative when CQ resistance has developed. This study evaluated mutations in the dihydrofolate reductase (dhfr and dihydropteroate synthetase (dhps genes that confer PYR and SDX resistance, respectively, in P. falciparum to provide baseline data in Haiti. This study is the first comprehensive study to examine PYR and SDX resistance genotypes in P. falciparum in Haiti. Methods DNA was extracted from dried blood spots and genotyped for PYR and SDX resistance mutations in P. falciparum using PCR and DNA sequencing methods. Sixty-one samples were genotyped for PYR resistance in codons 51, 59, 108 and 164 of the dhfr gene and 58 samples were genotyped for SDX resistance codons 436, 437, 540 of the dhps gene in P. falciparum. Results Thirty-three percent (20/61 of the samples carried a mutation at codon 108 (S108N of the dhfr gene. No mutations in dhfr at codons 51, 59, 164 were observed in any of the samples. In addition, no mutations were observed in dhps at the three codons (436, 437, 540 examined. No significant difference was observed between samples collected in urban vs rural sites (Welch’s T-test p-value = 0.53 and permutations p-value = 0.59. Conclusion This study has shown the presence of the S108N mutation in P. falciparum that confers low-level PYR resistance in Haiti. However, the absence of SDX resistance mutations suggests that SP resistance may not be present in Haiti. These

  14. Stage-dependent expression and up-regulation of trypanothione synthetase in amphotericin B resistant Leishmania donovani.

    Directory of Open Access Journals (Sweden)

    Asif Equbal

    Full Text Available Kinetoplastids differ from other organisms in their ability to conjugate glutathione and spermidine to form trypanothione which is involved in maintaining redox homeostasis and removal of toxic metabolites. It is also involved in drug resistance, antioxidant mechanism, and defense against cellular oxidants. Trypanothione synthetase (TryS of thiol metabolic pathway is the sole enzyme responsible for the biosynthesis of trypanothione in Leishmania donovani. In this study, TryS gene of L. donovani (LdTryS was cloned, expressed, and fusion protein purified with affinity column chromatography. The purified protein showed optimum enzymatic activity at pH 8.0-8.5. The TryS amino acids sequences alignment showed that all amino acids involved in catalytic and ligands binding of L. major are conserved in L. donovani. Subcellular localization using digitonin fractionation and immunoblot analysis showed that LdTryS is localized in the cytoplasm. Furthermore, RT-PCR coupled with immunoblot analysis showed that LdTryS is overexpressed in Amp B resistant and stationary phase promastigotes (∼ 2.0-folds than in sensitive strain and logarithmic phase, respectively, which suggests its involvement in Amp B resistance. Also, H2O2 treatment upto 150 µM for 8 hrs leads to 2-fold increased expression of LdTryS probably to cope up with oxidative stress generated by H2O2. Therefore, this study demonstrates stage- and Amp B sensitivity-dependent expression of LdTryS in L. donovani and involvement of TryS during oxidative stress to help the parasites survival.

  15. Distribution of immunoreactive glutamine synthetase in the adult human and mouse brain. Qualitative and quantitative observations with special emphasis on extra-astroglial protein localization.

    Science.gov (United States)

    Bernstein, Hans-Gert; Bannier, Jana; Meyer-Lotz, Gabriela; Steiner, Johann; Keilhoff, Gerburg; Dobrowolny, Henrik; Walter, Martin; Bogerts, Bernhard

    2014-11-01

    Glutamine synthetase catalyzes the ATP-dependent condensation of ammonia and glutamate to form glutamine, thus playing a pivotal role in glutamate and glutamine homoeostasis. Despite a plethora of studies on this enzyme, knowledge about the regional and cellular distribution of this enzyme in human brain is still fragmentary. Therefore, we mapped fourteen post-mortem brains of psychically healthy individuals for the distribution of the glutamine synthetase immunoreactive protein. It was found that glutamine synthetase immunoreactivity is expressed in multiple gray and white matter astrocytes, but also in oligodendrocytes, ependymal cells and certain neurons. Since a possible extra-astrocytic expression of glutamine synthetase is highly controversial, we paid special attention to its appearance in oligodendrocytes and neurons. By double immunolabeling of mouse brain slices and cultured mouse brain cells for glutamine synthetase and cell-type-specific markers we provide evidence that besides astrocytes subpopulations of oligodendrocytes, microglial cells and neurons express glutamine synthetase. Moreover, we show that glutamine synthetase-immunopositive neurons are not randomly distributed throughout human and mouse brain, but represent a subpopulation of nitrergic (i.e. neuronal nitric oxide synthase expressing) neurons. Possible functional implications of an extra-astrocytic localization of glutamine synthetase are discussed.

  16. REGULATION OF RAT HEPATIC DELTA-AMINOLEVULINIC ACID SYNTHETASE AND HEME OXYGENASE ACTIVITIES: EVIDENCE FOR CONTROL BY HEME AND AGAINST MEDIATION BY PROSTHETIC IRON

    Science.gov (United States)

    The effects of in vivo administration of 6 compounds on the activity of delta-aminolevulinic acid (ALA) synthetase and heme oxygenase were determined. The order of decreasing potency in reducing ALA synthetase activity was heme, bilirubin, protoporphyrin IX, bilirubin dimethyl es...

  17. delta-(L-alpha-Aminoadipyl)-L-cysteinyl-D-valine synthetase, that mediates the first committed step in penicillin biosynthesis, is a cytosolic enzyme

    NARCIS (Netherlands)

    van der Lende, T.R.; de Kamp, M.; den Berg, M.van; Sjollema, K.; Bovenberg, R.A.L.; Veenhuis, M; Konings, W.N; Driessen, A.J.M.

    2002-01-01

    Penicillin biosynthesis by Penicillium chrysogenum is a compartmentalized process. The first catalytic step is mediated by delta-(L-alpha-aminoadipyl)-L-cysteinyl-D-valine synthetase (ACV synthetase), a high molecular mass enzyme that condenses the amino acids L-alpha-aminoadipate, L-cysteme, and L-

  18. δ-(L-α-Aminoadipyl)-L-cysteinyl-D-valine synthetase, that mediates the first committed step in penicillin biosynthesis, is a cytosolic enzyme

    NARCIS (Netherlands)

    Lende, Ted R. van der; Kamp, Mart van de; Berg, Marco van den; Sjollema, Klaas; Bovenberg, Roel A.L.; Veenhuis, Marten; Konings, Wil N.; Driessen, Arnold J.M.

    2002-01-01

    Penicillin biosynthesis by Penicillium chrysogenum is a compartmentalized process. The first catalytic step is mediated by δ-(L-α-aminoadipyl)-L-cysteinyl-D-valine synthetase (ACV synthetase), a high molecular mass enzyme that condenses the amino acids L-α-aminoadipate, L-cysteine, and L-valine into

  19. Xylan synthetase activity in differentiated xylem cells of sycamore trees (Acer pseudoplatanus).

    Science.gov (United States)

    Dalessandro, G; Northcote, D H

    1981-01-01

    Particulate enzymic preparations obtained from homogenates of differentiated xylem cells isolated from sycamore trees, catalyzed the formation of a radioactive xylan in the presence of UDP-D-[U-(14)C]xylose as substrate. The synthesized xylan was not dialyzable through Visking cellophane tubing. Successive extraction with cold water, hot water and 5% NaOH dissolved respectively 15, 5 and 80% of the radioactive polymer. Complete acid hydrolysis of the water-insoluble polysaccharide synthesized from UDP-D-[U-(14)C]xylose released all the radioactivity as xylose. β-1,4-Xylodextrins, degree of polymerization 2, 3, 4, 5 and 6, were obtained by partial acid hydrolysis (fuming HCl or 0.1 M HCl) of radioactive xylan. The polymer was hydrolysed to xylose, xylobiose and xylotriose by Driselase which contains 1,4-β xylanase activities. Methylation and then hydrolysis of the xylan released two methylated sugars which were identified as di-O-methyl[(14)C]xylose and tri-O-methyl-[(14)C]xylose, suggesting a 1→4-linked polymer. The linkage was confirmed by periodate oxidation studies. The apparent Km value of the synthetase for UDP-D-xylose was 0.4 mM. Xylan synthetase activity was not potentiated in the presence of a detergent. The enzymic activity was stimulated by Mg(2+) and Mn(2+) ions, although EDTA in the range of concentrations between 0.01 and 1 mM did not affect the reaction rate. It appears that the xylan synthetase system associated with membranes obtained from differentiated xylem cells of sycamore trees may serve for catalyzing the in vivo synthesis of the xylan main chain during the biogenesis of the plant cell wall.

  20. Structural Insights into the Polyphyletic Origins of Glycyl tRNA Synthetases*♦

    Science.gov (United States)

    Valencia-Sánchez, Marco Igor; Rodríguez-Hernández, Annia; Ferreira, Ruben; Santamaría-Suárez, Hugo Aníbal; Arciniega, Marcelino; Dock-Bregeon, Anne-Catherine; Moras, Dino; Beinsteiner, Brice; Brieba, Luis G.; Grøtli, Morten

    2016-01-01

    Glycyl tRNA synthetase (GlyRS) provides a unique case among class II aminoacyl tRNA synthetases, with two clearly widespread types of enzymes: a dimeric (α2) species present in some bacteria, archaea, and eukaryotes; and a heterotetrameric form (α2β2) present in most bacteria. Although the differences between both types of GlyRS at the anticodon binding domain level are evident, the extent and implications of the variations in the catalytic domain have not been described, and it is unclear whether the mechanism of amino acid recognition is also dissimilar. Here, we show that the α-subunit of the α2β2 GlyRS from the bacterium Aquifex aeolicus is able to perform the first step of the aminoacylation reaction, which involves the activation of the amino acid with ATP. The crystal structure of the α-subunit in the complex with an analog of glycyl adenylate at 2.8 Å resolution presents a conformational arrangement that properly positions the cognate amino acid. This work shows that glycine is recognized by a subset of different residues in the two types of GlyRS. A structural and sequence analysis of class II catalytic domains shows that bacterial GlyRS is closely related to alanyl tRNA synthetase, which led us to define a new subclassification of these ancient enzymes and to propose an evolutionary path of α2β2 GlyRS, convergent with α2 GlyRS and divergent from AlaRS, thus providing a possible explanation for the puzzling existence of two proteins sharing the same fold and function but not a common ancestor. PMID:27226617

  1. Structural Insights into the Polyphyletic Origins of Glycyl tRNA Synthetases.

    Science.gov (United States)

    Valencia-Sánchez, Marco Igor; Rodríguez-Hernández, Annia; Ferreira, Ruben; Santamaría-Suárez, Hugo Aníbal; Arciniega, Marcelino; Dock-Bregeon, Anne-Catherine; Moras, Dino; Beinsteiner, Brice; Mertens, Haydyn; Svergun, Dmitri; Brieba, Luis G; Grøtli, Morten; Torres-Larios, Alfredo

    2016-07-01

    Glycyl tRNA synthetase (GlyRS) provides a unique case among class II aminoacyl tRNA synthetases, with two clearly widespread types of enzymes: a dimeric (α2) species present in some bacteria, archaea, and eukaryotes; and a heterotetrameric form (α2β2) present in most bacteria. Although the differences between both types of GlyRS at the anticodon binding domain level are evident, the extent and implications of the variations in the catalytic domain have not been described, and it is unclear whether the mechanism of amino acid recognition is also dissimilar. Here, we show that the α-subunit of the α2β2 GlyRS from the bacterium Aquifex aeolicus is able to perform the first step of the aminoacylation reaction, which involves the activation of the amino acid with ATP. The crystal structure of the α-subunit in the complex with an analog of glycyl adenylate at 2.8 Å resolution presents a conformational arrangement that properly positions the cognate amino acid. This work shows that glycine is recognized by a subset of different residues in the two types of GlyRS. A structural and sequence analysis of class II catalytic domains shows that bacterial GlyRS is closely related to alanyl tRNA synthetase, which led us to define a new subclassification of these ancient enzymes and to propose an evolutionary path of α2β2 GlyRS, convergent with α2 GlyRS and divergent from AlaRS, thus providing a possible explanation for the puzzling existence of two proteins sharing the same fold and function but not a common ancestor. PMID:27226617

  2. Glial glutamate transporter and glutamine synthetase regulate GABAergic synaptic strength in the spinal dorsal horn.

    Science.gov (United States)

    Jiang, Enshe; Yan, Xisheng; Weng, Han-Rong

    2012-05-01

    Decreased GABAergic synaptic strength ('disinhibition') in the spinal dorsal horn is a crucial mechanism contributing to the development and maintenance of pathological pain. However, mechanisms leading to disinhibition in the spinal dorsal horn remain elusive. We investigated the role of glial glutamate transporters (GLT-1 and GLAST) and glutamine synthetase in maintaining GABAergic synaptic activity in the spinal dorsal horn. Electrically evoked GABAergic inhibitory post-synaptic currents (eIPSCs), spontaneous IPSCs (sIPSCs) and miniature IPSCs were recorded in superficial spinal dorsal horn neurons of spinal slices from young adult rats. We used (2S,3S)-3-[3-[4-(trifluoromethyl)benzoylamino]benzyloxy]aspartate (TFB-TBOA), to block both GLT-1 and GLAST and dihydrokainic acid to block only GLT-1. We found that blockade of both GLAST and GLT-1 and blockade of only GLT-1 in the spinal dorsal horn decreased the amplitude of GABAergic eIPSCs, as well as both the amplitude and frequency of GABAergic sIPSCs or miniature IPSCs. Pharmacological inhibition of glial glutamine synthetase had similar effects on both GABAergic eIPSCs and sIPSCs. We provided evidence demonstrating that the reduction in GABAergic strength induced by the inhibition of glial glutamate transporters is due to insufficient GABA synthesis through the glutamate-glutamine cycle between astrocytes and neurons. Thus, our results indicate that deficient glial glutamate transporters and glutamine synthetase significantly attenuate GABAergic synaptic strength in the spinal dorsal horn, which may be a crucial synaptic mechanism underlying glial-neuronal interactions caused by dysfunctional astrocytes in pathological pain conditions. PMID:22339645

  3. The McbB component of microcin B17 synthetase is a zinc metalloprotein.

    Science.gov (United States)

    Zamble, D B; McClure, C P; Penner-Hahn, J E; Walsh, C T

    2000-12-26

    The microcin B17 synthetase converts glycine, serine, and cysteine residues in a polypeptide precursor into oxazoles and thiazoles during the maturation of the Escherichia coli antibiotic Microcin B17. This multimeric enzyme is composed of three subunits (McbB, McbC, and McbD), and it employs both ATP and FMN as cofactors. The McbB subunit was purified as a fusion with the maltose-binding protein (MBP), and metal analysis revealed that this protein binds 0.91+/-0.17 zinc atoms. Upon incubation of MBP-McbB with excess zinc, the stoichiometry increased to two atoms of zinc bound, but metal binding to the second site resulted in a decrease in the heterocyclization activity when MBP-McbB was reconstituted with the other components of the synthetase. Apo-protein was prepared by using p-hydroxymercuriphenylsulfonic acid (PMPS), and loss of the metal caused a severe reduction in enzymatic activity. However, if dithiothreitol was added to the PMPS reactions within a few minutes, enzymatic activity was retained and MBP-McbB could be reconstituted with zinc. Spectroscopic analysis of the cobalt-containing protein and extended X-ray absorption fine structure analysis of the zinc-containing protein both provide evidence for a tetrathiolate coordination sphere. Site-directed mutants of MBP-McbB as well as the synthetase tagged with the calmodulin-binding peptide were constructed. Activity assays and metal analysis were used to determine which of the six cysteines in McbB are metal ligands. These results suggest that the zinc cofactor in McbB plays a structural role.

  4. Synthesis of Glu-tRNA(Gln) by engineered and natural aminoacyl-tRNA synthetases.

    Science.gov (United States)

    Rodríguez-Hernández, Annia; Bhaskaran, Hari; Hadd, Andrew; Perona, John J

    2010-08-10

    A protein engineering approach to delineating which distinct elements of homologous tRNA synthetase architectures are responsible for divergent RNA-amino acid pairing specificities is described. Previously, we constructed a hybrid enzyme in which 23 amino acids from the catalytic domain of Escherichia coli glutaminyl-tRNA synthetase (GlnRS) were replaced with the corresponding residues of human glutamyl-tRNA synthetase (GluRS). The engineered hybrid (GlnRS S1/L1/L2) synthesizes Glu-tRNA(Gln) more than 10(4)-fold more efficiently than GlnRS. Detailed comparison of kinetic parameters between GlnRS S1/L1/L2 and the naturally occurring Methanothermobacter thermautotrophicus GluRS(ND), which is also capable of Glu-tRNA(Gln) synthesis, now shows that both k(cat) and K(m) for glutamate are recapitulated in the engineered enzyme, but that K(m) for tRNA is 200-fold higher. Thus, the simultaneous optimization of paired amino acid and tRNA binding sites found in a naturally occurring enzyme is not recapitulated in a hybrid that is successfully engineered for amino acid complementarity. We infer that the GlnRS architecture has differentiated to match only cognate amino acid-RNA pairs, and that the substrate selection functions do not operate independently of each other. Design and characterization of four additional hybrids identify further residues involved in improving complementarity for glutamate and in communicating between amino acid and tRNA binding sites. The robust catalytic function demonstrated in this engineered system offers a novel platform for exploring the stereochemical origins of coding as a property of the ancient Rossmann fold.

  5. Cloning, expression, purification, crystallization and preliminary X-ray crystallographic study of DHNA synthetase from Geobacillus kaustophilus

    Energy Technology Data Exchange (ETDEWEB)

    Kanaujia, Shankar Prasad; Ranjani, Chellamuthu Vasuki [Bioinformatics Centre (Centre of Excellence in Structural Biology and Biocomputing), Indian Institute of Science, Bangalore 560 012 (India); Jeyakanthan, Jeyaraman [RIKEN SPring-8 Center, Harima Institute, 1-1-1 Kouto, Sayo, Hyogo 679-5148 (Japan); Baba, Seiki [RIKEN SPring-8 Center, Harima Institute, 1-1-1 Kouto, Sayo, Hyogo 679-5148 (Japan); Department of Biology, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043 (Japan); Kuroishi, Chizu; Ebihara, Akio; Shinkai, Akeo [RIKEN SPring-8 Center, Harima Institute, 1-1-1 Kouto, Sayo, Hyogo 679-5148 (Japan); Kuramitsu, Seiki [RIKEN SPring-8 Center, Harima Institute, 1-1-1 Kouto, Sayo, Hyogo 679-5148 (Japan); Department of Biology, Graduate School of Science, Osaka University, Toyonaka, Osaka 560-0043 (Japan); Shiro, Yoshitsugu [RIKEN SPring-8 Center, Harima Institute, 1-1-1 Kouto, Sayo, Hyogo 679-5148 (Japan); Sekar, Kanagaraj, E-mail: sekar@serc.iisc.ernet.in [Bioinformatics Centre (Centre of Excellence in Structural Biology and Biocomputing), Indian Institute of Science, Bangalore 560 012 (India); Supercomputer Education and Research Centre, Indian Institute of Science, Bangalore 560 012 (India); Yokoyama, Shigeyuki, E-mail: sekar@serc.iisc.ernet.in [RIKEN SPring-8 Center, Harima Institute, 1-1-1 Kouto, Sayo, Hyogo 679-5148 (Japan); RIKEN Genomic Sciences Center, 1-7-22 Suehiro-cho, Tsurumi, Yokohama 230-0045 (Japan); Department of Biophysics and Biochemistry, Graduate School of Science, University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033 (Japan); Bioinformatics Centre (Centre of Excellence in Structural Biology and Biocomputing), Indian Institute of Science, Bangalore 560 012 (India)

    2007-02-01

    DHNA synthetase from G. kaustophilus has been cloned, expressed, purified and crystallized. The aerobic Gram-positive bacterium Geobacillus kaustophilus is a bacillus species that was isolated from deep-sea sediment from the Mariana Trench. 1,4-Dihydroxy-2-naphthoate (DHNA) synthetase plays a vital role in the biosynthesis of menaquinone (vitamin K{sub 2}) in this bacterium. DHNA synthetase from Geobacillus kaustophilus was crystallized in the orthorhombic space group C222{sub 1}, with unit-cell parameters a = 77.01, b = 130.66, c = 131.69 Å. The crystal diffracted to a resolution of 2.2 Å. Preliminary studies and molecular-replacement calculations reveal the presence of three monomers in the asymmetric unit.

  6. Inhibition of human glutamine synthetase by L-methionine-S,R-sulfoximine-relevance to the treatment of neurological diseases.

    Science.gov (United States)

    Jeitner, Thomas M; Cooper, Arthur J L

    2014-12-01

    At high concentrations, the glutamine synthetase inhibitor L-methionine-S,R-sulfoximine (MSO) is a convulsant, especially in dogs. Nevertheless, sub-convulsive doses of MSO are neuroprotective in rodent models of hyperammonemia, acute liver disease, and amyotrophic lateral sclerosis and suggest MSO may be clinically useful. Previous work has also shown that much lower doses of MSO are required to produce convulsions in dogs than in primates. Evidence from the mid-20th century suggests that humans are also less sensitive. In the present work, the inhibition of recombinant human glutamine synthetase by MSO is shown to be biphasic-an initial reversible competitive inhibition (K i 1.19 mM) is followed by rapid irreversible inactivation. This K i value for the human enzyme accounts, in part, for relative insensitivity of primates to MSO and suggests that this inhibitor could be used to safely inhibit glutamine synthetase activity in humans.

  7. Cloning, expression, purification, crystallization and preliminary X-ray crystallographic study of DHNA synthetase from Geobacillus kaustophilus

    International Nuclear Information System (INIS)

    DHNA synthetase from G. kaustophilus has been cloned, expressed, purified and crystallized. The aerobic Gram-positive bacterium Geobacillus kaustophilus is a bacillus species that was isolated from deep-sea sediment from the Mariana Trench. 1,4-Dihydroxy-2-naphthoate (DHNA) synthetase plays a vital role in the biosynthesis of menaquinone (vitamin K2) in this bacterium. DHNA synthetase from Geobacillus kaustophilus was crystallized in the orthorhombic space group C2221, with unit-cell parameters a = 77.01, b = 130.66, c = 131.69 Å. The crystal diffracted to a resolution of 2.2 Å. Preliminary studies and molecular-replacement calculations reveal the presence of three monomers in the asymmetric unit

  8. Purification and characterization of 3-deoxy-D-manno-octulosonate 8-phosphate synthetase from Escherichia coli.

    OpenAIRE

    Ray, P H

    1980-01-01

    3-Deoxy-D-manno-octulosonate (KDO)-8-phosphate synthetase has been purified 450-fold from frozen Escherichia coli B cells. The purified enzyme catalyzed the stoichiometric formation of KDO-8-phosphate and Pi from phosphoenolpyruvate (PEP) and D-arabinose-5-phosphate. The enzyme showed no metal requirement for activity and was inhibited by 1 mM Cd2+, Cu2+, Zn2+, and Hg2+. The inhibition by Hg2+ could be reversed by dithiothreitol. The optimum temperature for enzyme activity was determined to b...

  9. Overexpression of acetyl-CoA synthetase in Saccharomyces cerevisiae increases acetic acid tolerance.

    Science.gov (United States)

    Ding, Jun; Holzwarth, Garrett; Penner, Michael H; Patton-Vogt, Jana; Bakalinsky, Alan T

    2015-01-01

    Acetic acid-mediated inhibition of the fermentation of lignocellulose-derived sugars impedes development of plant biomass as a source of renewable ethanol. In order to overcome this inhibition, the capacity of Saccharomyces cerevisiae to synthesize acetyl-CoA from acetic acid was increased by overexpressing ACS2 encoding acetyl-coenzyme A synthetase. Overexpression of ACS2 resulted in higher resistance to acetic acid as measured by an increased growth rate and shorter lag phase relative to a wild-type control strain, suggesting that Acs2-mediated consumption of acetic acid during fermentation contributes to acetic acid detoxification.

  10. Structural Basis for Specific Inhibition of tRNA Synthetase by an ATP Competitive Inhibitor

    OpenAIRE

    Fang, Pengfei; Han, Hongyan; Wang, Jing; Chen, Kaige; Chen, Xin; Guo, Min

    2015-01-01

    Pharmaceutical inhibitors of aminoacyl-tRNA synthetases demand high species and family specificity. The antimalarial ATP-mimetic cladosporin selectively inhibits P. falciparum LysRS (PfLysRS). How the binding to a universal ATP site achieves the specificity is unknown. Here we report 3 crystal structures of cladosporin with human LysRS, PfLysRS, and a Pf-like human LysRS mutant. In all 3 structures, cladosporin occupies the class defining ATP-binding pocket, replacing the adenosine portion of...

  11. Total glutamine synthetase levels in cerebrospinal fluid of Alzheimer's disease patients are unchanged.

    Science.gov (United States)

    Timmer, Nienke M; Herbert, Megan K; Claassen, Jurgen A H R; Kuiperij, H Bea; Verbeek, Marcel M

    2015-03-01

    Decreased cerebral protein and activity levels of glutamine synthetase (GS) have been reported for Alzheimer's disease (AD) patients. Using a recently established method, we quantified total GS levels in cerebrospinal fluid (CSF) from AD patients and control subjects. Furthermore, we investigated if total GS levels in CSF could differentiate AD from frontotemperal dementia and dementia with Lewy bodies patients. As we found no significantly altered total GS levels in any of the patient groups compared with control subjects, we conclude that levels of total GS in CSF have no diagnostic value for AD, dementia with Lewy bodies, or frontotemperal dementia.

  12. A radiochemical method for carbamoyl-phosphate synthetase I: application to rats fed a hyperproteic diet

    OpenAIRE

    Arriarán, Sofía; Agnelli, Silvia; Fernández López, José Antonio; Remesar Betlloch, Xavier; Alemany, Marià

    2012-01-01

    A method for the measurement of carbamoyl-phosphate synthetase I activity in animal tissues has been developed using the livers of rats under normal and hyperproteic diets. The method is based on the incorporation of 14C-ammonium bicarbonate to carbamoyl-phosphate in the presence of ATP-Mg and N-acetyl-glutamate. The reaction is stopped by chilling, lowering the pH and adding ethanol. Excess bicarbonate is flushed out under a gentle stream of cold CO2. The only label remaining in the medium w...

  13. Heme ligand identification and redox properties of the cytochrome c synthetase, CcmF†

    OpenAIRE

    Francisco, Brian San; Bretsnyder, Eric C.; Rodgers, Kenton R.; Kranz, Robert G.

    2011-01-01

    Cytochrome c maturation in many bacteria, archaea, and plant mitochondria involves the integral membrane protein CcmF, which is thought to function as a cytochrome c synthetase by facilitating the final covalent attachment of heme to the apocytochrome c. We previously reported that the E. coli CcmF protein contains a b-type heme that is stably and stoichiometrically associated with the protein and is not the heme attached to apocytochrome c. Here, we show that mutation of either of two conser...

  14. Interference with histidyl-tRNA synthetase by a CRISPR spacer sequence as a factor in the evolution of Pelobacter carbinolicus

    Directory of Open Access Journals (Sweden)

    Lovley Derek R

    2010-07-01

    Full Text Available Abstract Background Pelobacter carbinolicus, a bacterium of the family Geobacteraceae, cannot reduce Fe(III directly or produce electricity like its relatives. How P. carbinolicus evolved is an intriguing problem. The genome of P. carbinolicus contains clustered regularly interspaced short palindromic repeats (CRISPR separated by unique spacer sequences, which recent studies have shown to produce RNA molecules that interfere with genes containing identical sequences. Results CRISPR spacer #1, which matches a sequence within hisS, the histidyl-tRNA synthetase gene of P. carbinolicus, was shown to be expressed. Phylogenetic analysis and genetics demonstrated that a gene paralogous to hisS in the genomes of Geobacteraceae is unlikely to compensate for interference with hisS. Spacer #1 inhibited growth of a transgenic strain of Geobacter sulfurreducens in which the native hisS was replaced with that of P. carbinolicus. The prediction that interference with hisS would result in an attenuated histidyl-tRNA pool insufficient for translation of proteins with multiple closely spaced histidines, predisposing them to mutation and elimination during evolution, was investigated by comparative genomics of P. carbinolicus and related species. Several ancestral genes with high histidine demand have been lost or modified in the P. carbinolicus lineage, providing an explanation for its physiological differences from other Geobacteraceae. Conclusions The disappearance of multiheme c-type cytochromes and other genes typical of a metal-respiring ancestor from the P. carbinolicus lineage may be the consequence of spacer #1 interfering with hisS, a condition that can be reproduced in a heterologous host. This is the first successful co-introduction of an active CRISPR spacer and its target in the same cell, the first application of a chimeric CRISPR construct consisting of a spacer from one species in the context of repeats of another species, and the first report of

  15. The structures of cytosolic and plastid-located glutamine synthetases from Medicago truncatula reveal a common and dynamic architecture

    Energy Technology Data Exchange (ETDEWEB)

    Torreira, Eva [Centro de Investigaciones Biológicas – CSIC, Ramiro de Maeztu 9, 28040 Madrid (Spain); Seabra, Ana Rita [IBMC – Instituto de Biologia Molecular e Celular, Universidade do Porto, Rua do Campo Alegre 823, 4150-180 Porto (Portugal); Marriott, Hazel; Zhou, Min [University of Oxford, South Parks Road, Oxford OX1 3QZ (United Kingdom); Llorca, Óscar [Centro de Investigaciones Biológicas – CSIC, Ramiro de Maeztu 9, 28040 Madrid (Spain); Robinson, Carol V. [University of Oxford, South Parks Road, Oxford OX1 3QZ (United Kingdom); Carvalho, Helena G. [IBMC – Instituto de Biologia Molecular e Celular, Universidade do Porto, Rua do Campo Alegre 823, 4150-180 Porto (Portugal); Fernández-Tornero, Carlos, E-mail: cftornero@cib.csic.es [Centro de Investigaciones Biológicas – CSIC, Ramiro de Maeztu 9, 28040 Madrid (Spain); Pereira, Pedro José Barbosa, E-mail: cftornero@cib.csic.es [IBMC – Instituto de Biologia Molecular e Celular, Universidade do Porto, Rua do Campo Alegre 823, 4150-180 Porto (Portugal); Centro de Investigaciones Biológicas – CSIC, Ramiro de Maeztu 9, 28040 Madrid (Spain)

    2014-04-01

    The experimental models of dicotyledonous cytoplasmic and plastid-located glutamine synthetases unveil a conserved eukaryotic-type decameric architecture, with subtle structural differences in M. truncatula isoenzymes that account for their distinct herbicide resistance. The first step of nitrogen assimilation in higher plants, the energy-driven incorporation of ammonia into glutamate, is catalyzed by glutamine synthetase. This central process yields the readily metabolizable glutamine, which in turn is at the basis of all subsequent biosynthesis of nitrogenous compounds. The essential role performed by glutamine synthetase makes it a prime target for herbicidal compounds, but also a suitable intervention point for the improvement of crop yields. Although the majority of crop plants are dicotyledonous, little is known about the structural organization of glutamine synthetase in these organisms and about the functional differences between the different isoforms. Here, the structural characterization of two glutamine synthetase isoforms from the model legume Medicago truncatula is reported: the crystallographic structure of cytoplasmic GSII-1a and an electron cryomicroscopy reconstruction of plastid-located GSII-2a. Together, these structural models unveil a decameric organization of dicotyledonous glutamine synthetase, with two pentameric rings weakly connected by inter-ring loops. Moreover, rearrangement of these dynamic loops changes the relative orientation of the rings, suggesting a zipper-like mechanism for their assembly into a decameric enzyme. Finally, the atomic structure of M. truncatula GSII-1a provides important insights into the structural determinants of herbicide resistance in this family of enzymes, opening new avenues for the development of herbicide-resistant plants.

  16. Recognition of tRNALeu by Aquifex aeolicus leucyl-tRNA synthetase during the aminoacylation and editing steps

    OpenAIRE

    Yao, Peng; Zhu, Bin; Jaeger, Sophie; Eriani, Gilbert; Wang, En-Duo

    2008-01-01

    Recognition of tRNA by the cognate aminoacyl-tRNA synthetase during translation is crucial to ensure the correct expression of the genetic code. To understand tRNALeu recognition sets and their evolution, the recognition of tRNALeu by the leucyl-tRNA synthetase (LeuRS) from the primitive hyperthermophilic bacterium Aquifex aeolicus was studied by RNA probing and mutagenesis. The results show that the base A73; the core structure of tRNA formed by the tertiary interactions U8–A14, G18–U55 and ...

  17. Functional Analysis of Long-chain Acyl-CoA Synthetase 1 in 3T3-L1 Adipocytes*

    OpenAIRE

    Lobo, Sandra; Wiczer, Brian M.; Bernlohr, David A

    2009-01-01

    ACSL1 (acyl-CoA synthetase 1), the major acyl-CoA synthetase of adipocytes, has been proposed to function in adipocytes as mediating free fatty acid influx, esterification, and storage as triglyceride. To test this hypothesis, ACSL1 was stably silenced (knockdown (kd)) in 3T3-L1 cells, differentiated into adipocytes, and evaluated for changes in lipid metabolism. Surprisingly, ACSL1-silenced adipocytes exhibited no significant changes in basal or insulin-stimulated long-chain fatty acid uptak...

  18. The tRNA synthetase paralog PoxA modifies elongation factor-P with (R)-ß-lysine

    DEFF Research Database (Denmark)

    Roy, Hervé; Zou, S Betty; Bullwinkle, Tammy J;

    2011-01-01

    The lysyl-tRNA synthetase paralog PoxA modifies elongation factor P (EF-P) with a-lysine at low efficiency. Cell-free extracts containing non-a-lysine substrates of PoxA modified EF-P with a change in mass consistent with addition of ß-lysine, a substrate also predicted by genomic analyses. EF......-P was efficiently functionally modified with (R)-ß-lysine but not (S)-ß-lysine or genetically encoded a-amino acids, indicating that PoxA has evolved an activity orthogonal to that of the canonical aminoacyl-tRNA synthetases....

  19. Activity of interferon-dependent 2',5'-oligoadenylate synthetase in rat lymphoid cells under transformed environment conditions

    Science.gov (United States)

    Ostapchenko, L. I.; Mikhailik, I. V.; Prokopova, K. V.

    It is detected that interferon-dependent 2',5'-oligoadenylate synthetase is a sensitive index of immunocompetent cells functional state under transformed environment conditions. Microgravitation and ionising radiation induce increase of investigated enzyme activity in rat lymphocytes, which can be a result of lymphoid cells compensatory mechanisms starting in response to stress factors action. Administration of interferon inductors permits to stimulate the 2',5'-oligoadenylate synthetase, which enables one to correct pathological changes in the cells and to intensify adaptive reactions of immune systems.

  20. Evidence for cross-pathway regulation of metabolic gene expression in plants.

    OpenAIRE

    Guyer, D; Patton, D; Ward, E

    1995-01-01

    In Arabidopsis thaliana, blocking histidine biosynthesis with a specific inhibitor of imidazoleglycerol-phosphate dehydratase caused increased expression of eight genes involved in the biosynthesis of aromatic amino acids, histidine, lysine, and purines. A decrease in expression of glutamine synthetase was also observed. Addition of histidine eliminated the gene-regulating effects of the inhibitor, demonstrating that the changes in gene expression resulted from histidine-pathway blockage. The...

  1. Emiliania Huxleyi (Prymnesiophyceae): Nitrogen-metabolism genes and their expression in response to external nitrogen souces

    DEFF Research Database (Denmark)

    Bruhn, Annette; LaRoche, Julie; Richardson, Katherine

    2010-01-01

    . In this study, the complete amino acid sequences for three functional genes involved in nitrogen metabolism in E. huxleyi were identified: a putative formamidase, a glutamine synthetase (GSII family), and assimilatory nitrate reductase. Expression patterns of the three enzymes in cells grown on inorganic...

  2. The Enterococcal Cytolysin Synthetase Coevolves with Substrate for Stereoselective Lanthionine Synthesis.

    Science.gov (United States)

    Tang, Weixin; Thibodeaux, Gabrielle N; van der Donk, Wilfred A

    2016-09-16

    Stereochemical control is critical in natural product biosynthesis. For ribosomally synthesized and post-translationally modified peptides (RiPPs), the mechanism(s) by which stereoselectivity is achieved is still poorly understood. In this work, we focused on the stereoselective lanthionine synthesis in lanthipeptides, a major class of RiPPs formed by the addition of Cys residues to dehydroalanine (Dha) or dehydrobutyrine (Dhb). Nonenzymatic cyclization of the small subunit of a virulence lanthipeptide, the enterococcal cytolysin, resulted in the native modified peptide as the major product, suggesting that both regioselectivity and stereoselectivity are inherent to the dehydrated peptide sequence. These results support previous computational studies that a Dhx-Dhx-Xxx-Xxx-Cys motif (Dhx = Dha or Dhb; Xxx = any amino acid except Dha, Dhb, and Cys) preferentially cyclizes by attack on the Re face of Dha or Dhb. Characterization of the stereochemistry of the products formed enzymatically with substrate mutants revealed that the lanthionine synthetase actively reinforces Re face attack. These findings support the hypothesis of substrate-controlled selectivity in lanthionine synthesis but also reveal likely coevolution of substrates and lanthionine synthetases to ensure the stereoselective synthesis of lanthipeptides with defined biological activities. PMID:27348535

  3. Analogs of natural aminoacyl-tRNA synthetase inhibitors clear malaria in vivo.

    Science.gov (United States)

    Novoa, Eva Maria; Camacho, Noelia; Tor, Anna; Wilkinson, Barrie; Moss, Steven; Marín-García, Patricia; Azcárate, Isabel G; Bautista, José M; Mirando, Adam C; Francklyn, Christopher S; Varon, Sònia; Royo, Miriam; Cortés, Alfred; Ribas de Pouplana, Lluís

    2014-12-23

    Malaria remains a major global health problem. Emerging resistance to existing antimalarial drugs drives the search for new antimalarials, and protein translation is a promising pathway to target. Here we explore the potential of the aminoacyl-tRNA synthetase (ARS) family as a source of antimalarial drug targets. First, a battery of known and novel ARS inhibitors was tested against Plasmodium falciparum cultures, and their activities were compared. Borrelidin, a natural inhibitor of threonyl-tRNA synthetase (ThrRS), stands out for its potent antimalarial effect. However, it also inhibits human ThrRS and is highly toxic to human cells. To circumvent this problem, we tested a library of bioengineered and semisynthetic borrelidin analogs for their antimalarial activity and toxicity. We found that some analogs effectively lose their toxicity against human cells while retaining a potent antiparasitic activity both in vitro and in vivo and cleared malaria from Plasmodium yoelii-infected mice, resulting in 100% mice survival rates. Our work identifies borrelidin analogs as potent, selective, and unexplored scaffolds that efficiently clear malaria both in vitro and in vivo. PMID:25489076

  4. [Modification of phenylalanyl-tRNA-synthetase from Escherichia coli MRE600 by adenosine-5'-trimetaphosphate].

    Science.gov (United States)

    Khodyreva, S N; Nevinskiĭ, G A; Ankilova, V N; Lavrik, O I

    1983-01-01

    Modification of phenylalanyl-tRNA synthetase from E. coli MRE600 by adenosine-5'-trimetaphosphate, phosphorylating analog of ATP was shown to bring about the enzyme inactivation in the reactions of tRNA aminoacylation and ATP-[32P]pyrophosphate exchange. ATP when added in the reaction mixture protects the enzyme against inactivation in both reactions and decreases the level of covalent attachment of the analog. Phenylalanine has no protective effect. tRNA exhibits slight protective effect. Adenosine-5'-trimetaphosphate modifies both types (alpha and beta) of subunits of phenylalanyl-tRNA synthetase which is of alpha 2 beta 2 structure. ATP protects both types of the enzyme subunits against the covalent attachment of the analog. Disposition of the ATP-binding centers in the contact region of the nonequivalent subunits of the enzyme was proposed. The level of covalent attachment of the analog to the enzyme exceeds the number of the enzyme active sites that may be a consequence of the other nucleotide-binding center labeling. PMID:6361520

  5. Antipeptide antibodies that can distinguish specific subunit polypeptides of glutamine synthetase from bean (Phaseolus vulgaris L.)

    Science.gov (United States)

    Cai, X.; Henry, R. L.; Takemoto, L. J.; Guikema, J. A.; Wong, P. P.; Spooner, B. S. (Principal Investigator)

    1992-01-01

    The amino acid sequences of the beta and gamma subunit polypeptides of glutamine synthetase from bean (Phaseolus vulgaris L.) root nodules are very similar. However, there are small regions within the sequences that are significantly different between the two polypeptides. The sequences between amino acids 2 and 9 and between 264 and 274 are examples. Three peptides (gamma 2-9, gamma 264-274, and beta 264-274) corresponding to these sequences were synthesized. Antibodies against these peptides were raised in rabbits and purified with corresponding peptide-Sepharose affinity chromatography. Western blot analysis of polyacrylamide gel electrophoresis of bean nodule proteins demonstrated that the anti-beta 264-274 antibodies reacted specifically with the beta polypeptide and the anti-gamma 264-274 and anti-gamma 2-9 antibodies reacted specifically with the gamma polypeptide of the native and denatured glutamine synthetase. These results showed the feasibility of using synthetic peptides in developing antibodies that are capable of distinguishing proteins with similar primary structures.

  6. Reaction Mechanism of Mycobacterium Tuberculosis Glutamine Synthetase Using Quantum Mechanics/Molecular Mechanics Calculations.

    Science.gov (United States)

    Moreira, Cátia; Ramos, Maria J; Fernandes, Pedro Alexandrino

    2016-06-27

    This paper is devoted to the understanding of the reaction mechanism of mycobacterium tuberculosis glutamine synthetase (mtGS) with atomic detail, using computational quantum mechanics/molecular mechanics (QM/MM) methods at the ONIOM M06-D3/6-311++G(2d,2p):ff99SB//B3LYP/6-31G(d):ff99SB level of theory. The complete reaction undergoes a three-step mechanism: the spontaneous transfer of phosphate from ATP to glutamate upon ammonium binding (ammonium quickly loses a proton to Asp54), the attack of ammonia on phosphorylated glutamate (yielding protonated glutamine), and the deprotonation of glutamine by the leaving phosphate. This exothermic reaction has an activation free energy of 21.5 kcal mol(-1) , which is consistent with that described for Escherichia coli glutamine synthetase (15-17 kcal mol(-1) ). The participating active site residues have been identified and their role and energy contributions clarified. This study provides an insightful atomic description of the biosynthetic reaction that takes place in this enzyme, opening doors for more accurate studies for developing new anti-tuberculosis therapies.

  7. Reaction Mechanism of Mycobacterium Tuberculosis Glutamine Synthetase Using Quantum Mechanics/Molecular Mechanics Calculations.

    Science.gov (United States)

    Moreira, Cátia; Ramos, Maria J; Fernandes, Pedro Alexandrino

    2016-06-27

    This paper is devoted to the understanding of the reaction mechanism of mycobacterium tuberculosis glutamine synthetase (mtGS) with atomic detail, using computational quantum mechanics/molecular mechanics (QM/MM) methods at the ONIOM M06-D3/6-311++G(2d,2p):ff99SB//B3LYP/6-31G(d):ff99SB level of theory. The complete reaction undergoes a three-step mechanism: the spontaneous transfer of phosphate from ATP to glutamate upon ammonium binding (ammonium quickly loses a proton to Asp54), the attack of ammonia on phosphorylated glutamate (yielding protonated glutamine), and the deprotonation of glutamine by the leaving phosphate. This exothermic reaction has an activation free energy of 21.5 kcal mol(-1) , which is consistent with that described for Escherichia coli glutamine synthetase (15-17 kcal mol(-1) ). The participating active site residues have been identified and their role and energy contributions clarified. This study provides an insightful atomic description of the biosynthetic reaction that takes place in this enzyme, opening doors for more accurate studies for developing new anti-tuberculosis therapies. PMID:27225077

  8. Binding of Divalent Magnesium by Escherichia coli Phosphoribosyl Diphosphate Synthetase

    DEFF Research Database (Denmark)

    Willemoës, Martin; Hove-Jensen, Bjarne

    1997-01-01

    The mechanism of binding of the substrates MgATP and ribose 5-phosphate as well as Mg2+ to the enzyme 5-phospho-d-ribosyl a-1-diphosphate synthetase from Escherichia coli has been analyzed. By use of the competive inhibitors of ATP and ribose 5-phosphate binding, a,ß-methylene ATP and (+)-1-a,2-a,3...... of substrates and products indicated a role of Mg2+ in preparing the active site of phosphoribosyl diphosphate synthetase for binding of the highly phosphorylated ligands MgATP and phosphoribosyl diphosphate, as evaluated by analysis of the effects of the inhibitors adenosine and ribose 1,5-bisphosphate....... Calcium ions, which inhibit the enzyme even in the presence of high concentrations of Mg2+, appeared to compete with free Mg2+ for binding to its activator site on the enzyme. Analysis of the inhibition of Mg2+ binding by MgADP indicated that MgADP binding to the allosteric site may occur in competition...

  9. CcsBA is a cytochrome c synthetase that also functions in heme transport

    Science.gov (United States)

    Frawley, Elaine R.; Kranz, Robert G.

    2009-01-01

    Little is known about trafficking of heme from its sites of synthesis to sites of heme-protein assembly. We describe an integral membrane protein that allows trapping of endogenous heme to elucidate trafficking mechanisms. We show that CcsBA, a representative of a superfamily of integral membrane proteins involved in cytochrome c biosynthesis, exports and protects heme from oxidation. CcsBA has 10 transmembrane domains (TMDs) and reconstitutes cytochrome c synthesis in the Escherichia coli periplasm; thus, CcsBA is a cytochrome c synthetase. Purified CcsBA contains heme in an “external heme binding domain” for which two external histidines are shown to serve as axial ligands that protect the heme iron from oxidation. This is likely the active site of the synthetase. Furthermore, two conserved histidines in TMDs are required for heme to travel to the external heme binding domain. Remarkably, the function of CcsBA with mutations in these TMD histidines is corrected by exogenous imidazole, a result analogous to correction of heme binding by myoglobin when its proximal histidine is mutated. These data suggest that CcsBA has a heme binding site within the bilayer and that CcsBA is a heme channel. PMID:19509336

  10. Synthetic cycle of the initiation module of a formylating nonribosomal peptide synthetase.

    Science.gov (United States)

    Reimer, Janice M; Aloise, Martin N; Harrison, Paul M; Schmeing, T Martin

    2016-01-14

    Nonribosomal peptide synthetases (NRPSs) are very large proteins that produce small peptide molecules with wide-ranging biological activities, including environmentally friendly chemicals and many widely used therapeutics. NRPSs are macromolecular machines, with modular assembly-line logic, a complex catalytic cycle, moving parts and many active sites. In addition to the core domains required to link the substrates, they often include specialized tailoring domains, which introduce chemical modifications and allow the product to access a large expanse of chemical space. It is still unknown how the NRPS tailoring domains are structurally accommodated into megaenzymes or how they have adapted to function in nonribosomal peptide synthesis. Here we present a series of crystal structures of the initiation module of an antibiotic-producing NRPS, linear gramicidin synthetase. This module includes the specialized tailoring formylation domain, and states are captured that represent every major step of the assembly-line synthesis in the initiation module. The transitions between conformations are large in scale, with both the peptidyl carrier protein domain and the adenylation subdomain undergoing huge movements to transport substrate between distal active sites. The structures highlight the great versatility of NRPSs, as small domains repurpose and recycle their limited interfaces to interact with their various binding partners. Understanding tailoring domains is important if NRPSs are to be utilized in the production of novel therapeutics. PMID:26762462

  11. Catalytic mechanism and allosteric regulation of an oligomeric (p)ppGpp synthetase by an alarmone.

    Science.gov (United States)

    Steinchen, Wieland; Schuhmacher, Jan S; Altegoer, Florian; Fage, Christopher D; Srinivasan, Vasundara; Linne, Uwe; Marahiel, Mohamed A; Bange, Gert

    2015-10-27

    Nucleotide-based second messengers serve in the response of living organisms to environmental changes. In bacteria and plant chloroplasts, guanosine tetraphosphate (ppGpp) and guanosine pentaphosphate (pppGpp) [collectively named "(p)ppGpp"] act as alarmones that globally reprogram cellular physiology during various stress conditions. Enzymes of the RelA/SpoT homology (RSH) family synthesize (p)ppGpp by transferring pyrophosphate from ATP to GDP or GTP. Little is known about the catalytic mechanism and regulation of alarmone synthesis. It also is unclear whether ppGpp and pppGpp execute different functions. Here, we unravel the mechanism and allosteric regulation of the highly cooperative alarmone synthetase small alarmone synthetase 1 (SAS1) from Bacillus subtilis. We determine that the catalytic pathway of (p)ppGpp synthesis involves a sequentially ordered substrate binding, activation of ATP in a strained conformation, and transfer of pyrophosphate through a nucleophilic substitution (SN2) reaction. We show that pppGpp-but not ppGpp-positively regulates SAS1 at an allosteric site. Although the physiological significance remains to be elucidated, we establish the structural and mechanistic basis for a biological activity in which ppGpp and pppGpp execute different functional roles.

  12. The Stable Level of Glutamine synthetase 2 Plays an Important Role in Rice Growth and in Carbon-Nitrogen Metabolic Balance.

    Science.gov (United States)

    Bao, Aili; Zhao, Zhuqing; Ding, Guangda; Shi, Lei; Xu, Fangsen; Cai, Hongmei

    2015-06-04

    Glutamine synthetase 2 (GS2) is a key enzyme involved in the ammonium metabolism in plant leaves. In our previous study, we obtained GS2-cosuppressed plants, which displayed a normal growth phenotype at the seedling stage, while at the tillering stage they showed a chlorosis phenotype. In this study, to investigate the chlorosis mechanism, we systematically analyzed the plant growth, carbon-nitrogen metabolism and gene expressions between the GS2-cosuppressed rice and wild-type plants. The results revealed that the GS2-cosuppressed plants exhibited a poor plant growth phenotype and a poor nitrogen transport ability, which led to nitrogen accumulation and a decline in the carbon/nitrogen ratio in the stems. Interestingly, there was a higher concentration of soluble proteins and a lower concentration of carbohydrates in the GS2-cosuppressed plants at the seedling stage, while a contrasting result was displayed at the tillering stage. The analysis of the metabolic profile showed a significant increase of sugars and organic acids. Additionally, gene expression patterns were different in root and leaf of GS2-cosuppressed plants between the seedling and tillering stage. These results indicated the important role of a stable level of GS2 transcription during normal rice development and the importance of the carbon-nitrogen metabolic balance in rice growth.

  13. Purification and Properties of a Prokaryote Type Glutamine Synthetase from the Bialaphos Producer Streptomyces hygroscopicus SF1293

    NARCIS (Netherlands)

    Kumada, Yoichi; Takano, Eriko; Nagaoka, Kozo

    1990-01-01

    A prokaryote type glutamine synthetase (GS) was purified from a bialaphos (BA)-producing organism, Streptomyces hygroscopicus SF1293 (SF1293). The GS (GS I) consisted of a 55,000 dalton subunit, and its N-terminal amino acid sequence was similar to that of S. coelicolor GS. GS I was highly sensitive

  14. Activation of 2'-5' oligoadenylate synthetase by single-stranded and double-stranded RNA aptamers

    DEFF Research Database (Denmark)

    Hartmann, R; Norby, P L; Martensen, P M;

    1998-01-01

    A number of small RNA molecules that are high affinity ligands for the 46-kDa form of human 2'-5' oligoadenylate synthetase have been identified by the SELEX method. Surface plasmon resonance analysis indicates that these RNAs bind to the enzyme with dissociation constants in the nanomolar range...

  15. Nitrogen Control in Pseudomonas aeruginosa : Mutants Affected in the Synthesis of Glutamine Synthetase, Urease, and NADP-Dependent Glutamate Dehydrogenase

    NARCIS (Netherlands)

    Janssen, Dick B.; Habets, Winand J.A.; Marugg, Joey T.; Drift, Chris van der

    1982-01-01

    Mutants were isolated from Pseudomonas aeruginosa that were impaired in the utilization of a number of nitrogen sources. In contrast to the wild-type strain, these mutants appeared to be unable to derepress the formation of glutamine synthetase and urease under nitrogen-limited growth conditions, wh

  16. Deficiency of cardiac Acyl-CoA synthetase-1 induces diastolic dysfunction, but pathologic hypertrophy is reversed by rapamycin

    DEFF Research Database (Denmark)

    Paul, David S; Grevengoed, Trisha J; Pascual, Florencia;

    2014-01-01

    In mice with temporally-induced cardiac-specific deficiency of acyl-CoA synthetase-1 (Acsl1(H-/-)), the heart is unable to oxidize long-chain fatty acids and relies primarily on glucose for energy. These metabolic changes result in the development of both a spontaneous cardiac hypertrophy and inc...

  17. Radiosensitivity of glutathione-synthetase deficient human fibroblasts in vitro: Indication of a correlation between OER and glutathione-synthetase activity

    International Nuclear Information System (INIS)

    5-oxoprolinuria is an autosomal recessive disease associated with a glutathione-synthetase (GSH-S) deficiency. Previous results obtained with a fibroplast cell strain originating from such a patient (VP) and exhibiting a decreased glutathione (GSH) level, showed a reduced oxygen enhancement ratio (OER) (1.5; control: 2.9). In order to assess the radioprotective role of the intrinsic GSH, radiosensitivity of 6 fibroblast cell strains with different GSH-S activity have been studied using colony assay as endpoint. 3 strains originated from 5-oxoprolinuria patients (OB, EB and AZ); 3 other strains were got from parents of patients (RB, JB and SP). Among those 6 cell strains, the GSH level was found to be depleted only in AZ and SP. However, a reduced OER is observed for the 6 cell strains (1.7, 2.0 and 2.0 for the patients; 1.9, 2.2 and 2.7 for parents; controls: 2.9). As far as survival of GSH-S deficient cells is concerned, OER seems to be correlated with GSH-S activity: the lower the GSH-S activity, the lower the OER. These results are discussed taking into account other unpublished results obtained from experiments designed to investigate the role of GSH in radio-induced enzymatic repair

  18. The insect pathogen Serratia marcescens Db10 uses a hybrid non-ribosomal peptide synthetase-polyketide synthase to produce the antibiotic althiomycin.

    Directory of Open Access Journals (Sweden)

    Amy J Gerc

    Full Text Available There is a continuing need to discover new bioactive natural products, such as antibiotics, in genetically-amenable micro-organisms. We observed that the enteric insect pathogen, Serratia marcescens Db10, produced a diffusible compound that inhibited the growth of Bacillis subtilis and Staphyloccocus aureus. Mapping the genetic locus required for this activity revealed a putative natural product biosynthetic gene cluster, further defined to a six-gene operon named alb1-alb6. Bioinformatic analysis of the proteins encoded by alb1-6 predicted a hybrid non-ribosomal peptide synthetase-polyketide synthase (NRPS-PKS assembly line (Alb4/5/6, tailoring enzymes (Alb2/3 and an export/resistance protein (Alb1, and suggested that the machinery assembled althiomycin or a related molecule. Althiomycin is a ribosome-inhibiting antibiotic whose biosynthetic machinery had been elusive for decades. Chromatographic and spectroscopic analyses confirmed that wild type S. marcescens produced althiomycin and that production was eliminated on disruption of the alb gene cluster. Construction of mutants with in-frame deletions of specific alb genes demonstrated that Alb2-Alb5 were essential for althiomycin production, whereas Alb6 was required for maximal production of the antibiotic. A phosphopantetheinyl transferase enzyme required for althiomycin biosynthesis was also identified. Expression of Alb1, a predicted major facilitator superfamily efflux pump, conferred althiomycin resistance on another, sensitive, strain of S. marcescens. This is the first report of althiomycin production outside of the Myxobacteria or Streptomyces and paves the way for future exploitation of the biosynthetic machinery, since S. marcescens represents a convenient and tractable producing organism.

  19. Recognition of tRNAs with a long variable arm by aminoacyl-tRNA synthetases

    Directory of Open Access Journals (Sweden)

    Tukalo M. A.

    2013-07-01

    Full Text Available In prokaryotic cells three tRNA species, tRNASer, tRNALeu and tRNATyr, possess a long variable arm of 11–20 nucleotides (type 2 tRNA rather than usual 4 or 5 nucleotides (type 1 tRNA. In this review we have summarized the results of our research on the structural basis for recognition and discrimination of type 2 tRNAs by Thermus thermophilus seryl-, tyrosyl- and leucyl-tRNA synthetases (SerRS, TyrRS and LeuRS obtained by X-ray crystallography and chemical probing tRNA in solution. Crystal structures are now known of all three aminoacyl-tRNA synthetases complexed with type 2 tRNAs and the different modes of tRNA recognition represented by these structures will be discussed. In particular, emphasis will be given to the results on recognition of characteristic shape of type 2 tRNAs by cognate synthetases. In tRNASer, tRNATyr and tRNALeu the orientation of the long variable arm with respect to the body of the tRNA is different and is controlled by different packing of the core. In the case of SerRS the N-terminal domain and in the case of TyrRS, the C-terminal domain, bind to the characteristic long variable arm of the cognate RNA, thus recognizing the unique shape of the tRNA. The core of T. thermophilus tRNALeu has several layers of unusual base-pairs, which are revealed by the crystal structure of tRNALeu complexed with T. thermophilus LeuRS and by probing a ligand-free tRNA by specific chemical reagents in solution. In the crystal structure of the LeuRS-tRNALeu complex the unique D-stem structure is recognized by the C-terminal domain of LeuRS and these data are in good agreement with those obtained in solution. LeuRS has canonical class I mode of tRNA recognition, approaching the tRNA acceptor stem from the D-stem and minor groove of the acceptor stem side. SerRS also has canonical class II mode of tRNA recognition and approaches tRNASer from opposite, variable stem and major groove of acceptor stem site. And finally, TyrRS in strong

  20. Covalent aspartylation of aspartyl-tRNA synthetase from Bakers' yeast by its cognat aspartyl adenylate: identification of the labeled residues

    Energy Technology Data Exchange (ETDEWEB)

    Mejdoub, H.; Kern, D.; Giege, R.; Ebel, J.P.; Boulanger, Y.; Reinbolt, J.

    1987-04-07

    Aspartyl-tRNA synthetase from bakers' yeast gives an unstable complex with the cognate adenylate, which reacts after dissociation with amino acid side chains of the protein. This leads to a covalent incorporation of (/sup 14/C)-aspartic acid into aspartyl-tRNA synthetase via amide or ester bonds formed between the ..cap alpha..-carboxyl group of activated aspartic acid and accessible lysines, serines, and threonines. This property is used to label the peptides at the surface of the enzyme. The main labeled residues have been identified, and their location in the primary structure is discussed in relation to structural properties of aspartyl-tRNA synthetase.

  1. Activity of CMP-2-keto-3-deoxyoctulosonic acid synthetase in Escherichia coli strains expressing the capsular K5 polysaccharide implication for K5 polysaccharide biosynthesis.

    OpenAIRE

    Finke, A.; Roberts, I.; Boulnois, G; Pzzani, C; Jann, K

    1989-01-01

    The activity of the cytoplasmic CMP-2-keto-3-deoxyoctulosonic acid synthetase (CMP-KDO synthetase), which is low in Escherichia coli rough strains such as E. coli K-12 and in uncapsulated strains such as E. coli O111, was significantly elevated in encapsulated E. coli O10:K5 and O18:K5. This enzyme activity was even higher in an E. coli clone expressing the K5 capsule. This and the following findings suggest a correlation between elevated CMP-KDO synthetase activity and the biosynthesis of th...

  2. Primary structure of the tms and prs genes of Bacillus subtilis

    DEFF Research Database (Denmark)

    Nilsson, Dan; Hove-Jensen, Bjarne; Arnvig, Kirsten

    1989-01-01

    The nucleotide sequence was determined of a 3211 nucleotide pair EcoRI-PvuII DNA fragment containing the tms and prs genes as well as a part of the ctc gene of Bacillus subtilis. The prs gene encodes phosphoribosylpyrophosphate (PRPP) synthetase, whereas the functioning of the tms and ctc gene...... products remains to be established. The prs gene contains an open reading frame of 317 codons resulting in a subunit Mr of 34828. An open reading frame comprising the tms gene contained 456 codons resulting in a putative translation product with an Mr of 49,554. Comparison of the deduced B. subtilis PRPP...

  3. Fluorine-19 nuclear magnetic resonance and biochemical characterization of fluorotyrosine-labeled-thymidylate-synthetase

    Science.gov (United States)

    Rosson, Dan; Lewis, Charles A.; Ellis, Paul D.; Dunlap, R. Bruce

    1994-03-01

    Fluorotyrosine has been incorporated into thymidylate synthetase from Lactobacillus casei by growth of the bacterium in media containing 3-fluorotyrosine. The enzyme exhibited a specific activity 70% of that of the normal enzyme and formed a covalent binary complex with pyrimidine nucleotides, as well as a covalent ternary complex with 5-fluorodeoxyuridylate and 5,10-methylenetetrahydrofolate. 19F nuclear magnetic resonance spectroscopy has been used to follow the formation of these complexes. 5-Fluorodeoxyuridylate, dUMP, dTMP and dCMP produced identical conformational changes in the enzyme as monitored by the fluorotyrosyl resonances. Ternary complex formation of the fluorotyrosine-containing enzyme with 5-fluorodeoxyuridylate and 5,10-methylenetetrahydrofolate resulted in further spectral changes.

  4. Structural basis for full-spectrum inhibition of translational functions on a tRNA synthetase

    Science.gov (United States)

    Fang, Pengfei; Yu, Xue; Jeong, Seung Jae; Mirando, Adam; Chen, Kaige; Chen, Xin; Kim, Sunghoon; Francklyn, Christopher S.; Guo, Min

    2015-01-01

    The polyketide natural product borrelidin displays antibacterial, antifungal, antimalarial, anticancer, insecticidal and herbicidal activities through the selective inhibition of threonyl-tRNA synthetase (ThrRS). How borrelidin simultaneously attenuates bacterial growth and suppresses a variety of infections in plants and animals is not known. Here we show, using X-ray crystal structures and functional analyses, that a single molecule of borrelidin simultaneously occupies four distinct subsites within the catalytic domain of bacterial and human ThrRSs. These include the three substrate-binding sites for amino acid, ATP and tRNA associated with aminoacylation, and a fourth ‘orthogonal’ subsite created as a consequence of binding. Thus, borrelidin competes with all three aminoacylation substrates, providing a potent and redundant mechanism to inhibit ThrRS during protein synthesis. These results highlight a surprising natural design to achieve the quadrivalent inhibition of translation through a highly conserved family of enzymes. PMID:25824639

  5. Inhibition of Glutamine Synthetase: A Potential Drug Target in Mycobacterium tuberculosis

    Directory of Open Access Journals (Sweden)

    Sherry L. Mowbray

    2014-08-01

    Full Text Available Tuberculosis is an infectious disease caused by Mycobacterium tuberculosis. Globally, tuberculosis is second only to AIDS in mortality and the disease is responsible for over 1.3 million deaths each year. The impractically long treatment schedules (generally 6–9 months and unpleasant side effects of the current drugs often lead to poor patient compliance, which in turn has resulted in the emergence of multi-, extensively- and totally-drug resistant strains. The development of new classes of anti-tuberculosis drugs and new drug targets is of global importance, since attacking the bacterium using multiple strategies provides the best means to prevent resistance. This review presents an overview of the various strategies and compounds utilized to inhibit glutamine synthetase, a promising target for the development of drugs for TB therapy.

  6. Glutamine Triggers Acetylation-Dependent Degradation of Glutamine Synthetase via the Thalidomide Receptor Cereblon.

    Science.gov (United States)

    Nguyen, T Van; Lee, J Eugene; Sweredoski, Michael J; Yang, Seung-Joo; Jeon, Seung-Je; Harrison, Joseph S; Yim, Jung-Hyuk; Lee, Sang Ghil; Handa, Hiroshi; Kuhlman, Brian; Jeong, Ji-Seon; Reitsma, Justin M; Park, Chul-Seung; Hess, Sonja; Deshaies, Raymond J

    2016-03-17

    Cereblon (CRBN), a substrate receptor for the cullin-RING ubiquitin ligase 4 (CRL4) complex, is a direct protein target for thalidomide teratogenicity and antitumor activity of immunomodulatory drugs (IMiDs). Here we report that glutamine synthetase (GS) is an endogenous substrate of CRL4(CRBN). Upon exposing cells to high glutamine concentration, GS is acetylated at lysines 11 and 14, yielding a degron that is necessary and sufficient for binding and ubiquitylation by CRL4(CRBN) and degradation by the proteasome. Binding of acetylated degron peptides to CRBN depends on an intact thalidomide-binding pocket but is not competitive with IMiDs. These findings reveal a feedback loop involving CRL4(CRBN) that adjusts GS protein levels in response to glutamine and uncover a new function for lysine acetylation.

  7. Effect of glutamine synthetase inhibition on brain and interorgan ammonia metabolism in bile duct ligated rats

    DEFF Research Database (Denmark)

    Fries, Andreas W; Dadsetan, Sherry; Keiding, Susanne;

    2014-01-01

    Ammonia has a key role in the development of hepatic encephalopathy (HE). In the brain, glutamine synthetase (GS) rapidly converts blood-borne ammonia into glutamine which in high concentrations may cause mitochondrial dysfunction and osmolytic brain edema. In astrocyte-neuron cocultures and brains...... of healthy rats, inhibition of GS by methionine sulfoximine (MSO) reduced glutamine synthesis and increased alanine synthesis. Here, we investigate effects of MSO on brain and interorgan ammonia metabolism in sham and bile duct ligated (BDL) rats. Concentrations of glutamine, glutamate, alanine......, and aspartate and incorporation of (15)NH4(+) into these amino acids in brain, liver, muscle, kidney, and plasma were similar in sham and BDL rats treated with saline. Methionine sulfoximine reduced glutamine concentrations in liver, kidney, and plasma but not in brain and muscle; MSO reduced incorporation...

  8. Glutamine synthetase desensitizes differentiated adipocytes to proinflammatory stimuli by raising intracellular glutamine levels.

    Science.gov (United States)

    Palmieri, Erika Mariana; Spera, Iolanda; Menga, Alessio; Infantino, Vittoria; Iacobazzi, Vito; Castegna, Alessandra

    2014-12-20

    The role of glutamine synthetase (GS) during adipocyte differentiation is unclear. Here, we assess the impact of GS on the adipocytic response to a proinflammatory challenge at different differentiation stages. GS expression at the late stages of differentiation desensitized mature adipocytes to bacterial lipopolysaccharide (LPS) by increasing intracellular glutamine levels. Furthermore, LPS-activated mature adipocytes were unable to produce inflammatory mediators; LPS sensitivity was rescued following GS inhibition and the associated drop in intracellular glutamine levels. The ability of adipocytes to differentially respond to LPS during differentiation negatively correlates to GS expression and intracellular glutamine levels. Hence, modulation of intracellular glutamine levels by GS expression represents an endogenous mechanism through which mature adipocytes control the inflammatory response.

  9. Engineering the synthetic potential of β-lactam synthetase and the importance of catalytic loop dynamics†

    Science.gov (United States)

    Labonte, Jason W.; Kudo, Fumitaka; Freeman, Michael F.; Raber, Mary L.

    2013-01-01

    The 2-azetidinone ring of the Class A and D β-lactamase inhibitor clavulanic acid (1) is synthesized by the ATP-utilizing enzyme β-lactam synthetase (βLS). A hydroxyethyl group attached to C-6 of 1 in the (S) configuration markedly enhances the efficacy of this compound against Class C β-lactamases. Guided by a series of X-ray structures of βLS, we have engineered this enzyme to act upon a methylated substrate analogue to give selectively the (3S)-methyl β-lactam core, which, upon closure of the second ring of the bicyclic system of 1, would lead to the (6S)-methylated clavulanic acid derivative. PMID:23616913

  10. Plant growth is influenced by glutamine synthetase-catalyzed nitrogen metabolism

    Energy Technology Data Exchange (ETDEWEB)

    Langston-Unkefer, P.J.

    1991-06-11

    Ammonia assimilation has been implicated as participating in regulation of nitrogen fixation in free-living bacteria. In fact, these simple organisms utilize an integrated regulation of carbon and nitrogen metabolism; we except to observe an integration of nitrogen and carbon fixation in plants; how could these complex systems grow efficiently and compete in the ecosystem without coordinating these two crucial activities We have been investigating the role of ammonia assimilation regulating the complex symbiotic nitrogen fixation of legumes. Just as is observed in the simple bacterial systems, perturbation of ammonia assimilation in legumes results in increased overall nitrogen fixation. The perturbed plants have increased growth and total nitrogen fixation capability. Because we have targeted the first enyzme in ammonia assimilation, glutamine synthetase, this provides a marker that could be used to assist selection or screening for increased biomass yield. 45 refs., 4 tabs.

  11. Relative Contribution of Mutations in Genes for Autosomal Dominant Distal Hereditary Motor Neuropathies: A Genotype-Phenotype Correlation Study

    Science.gov (United States)

    Dierick, Ines; Baets, Jonathan; Irobi, Joy; Jacobs, An; De Vriendt, Els; Deconinck, Tine; Merlini, Luciano; Van den Bergh, Peter; Rasic, Vedrana Milic; Robberecht, Wim; Fischer, Dirk; Morales, Raul Juntas; Mitrovic, Zoran; Seeman, Pavel; Mazanec, Radim; Kochanski, Andrzej; Jordanova, Albena; Auer-Grumbach, Michaela; Helderman-van den Enden, A. T. J. M.; Wokke, John H. J.; Nelis, Eva; De Jonghe, Peter; Timmerman, Vincent

    2008-01-01

    Distal hereditary motor neuropathy (HMN) is a clinically and genetically heterogeneous group of disorders affecting spinal alpha-motor neurons. Since 2001, mutations in six different genes have been identified for autosomal dominant distal HMN; "glycyl-tRNA synthetase (GARS)," "dynactin 1 (DCTN1)," "small heat shock 27 kDa protein 1 (HSPB1),"…

  12. Heme ligand identification and redox properties of the cytochrome c synthetase, CcmF†

    Science.gov (United States)

    Francisco, Brian San; Bretsnyder, Eric C.; Rodgers, Kenton R.; Kranz, Robert G.

    2011-01-01

    Cytochrome c maturation in many bacteria, archaea, and plant mitochondria involves the integral membrane protein CcmF, which is thought to function as a cytochrome c synthetase by facilitating the final covalent attachment of heme to the apocytochrome c. We previously reported that the E. coli CcmF protein contains a b-type heme that is stably and stoichiometrically associated with the protein and is not the heme attached to apocytochrome c. Here, we show that mutation of either of two conserved transmembrane histidines (His261 or His491) impairs stoichiometric b-heme binding in CcmF and results in spectral perturbations in the remaining heme. Exogeneous imidazole is able to correct cytochrome c maturation for His261 and His491 substitutions with small side chains (Ala or Gly), suggesting that a “cavity” is formed in these CcmF mutants in which imidazole binds and acts as a functional ligand to the b-heme. The results of resonance Raman spectroscopy on wild-type CcmF are consistent with a hexacoordinate low spin b-heme with at least one endogeneous axial His ligand. Analysis of purified recombinant CcmF proteins from diverse prokaryotes reveals that the b-heme in CcmF is widely conserved. We have also determined the reduction potential of the CcmF b-heme (Em,7 = -147 mV). We discuss these results in the context of CcmF structure and functions as a heme reductase and cytochrome c synthetase. PMID:22066495

  13. Phosphorolytic activity of Escherichia coli glycyl-tRNA synthetase towards its cognate aminoacyl adenylate detected by 31P-NMR spectroscopy and thin-layer chromatography

    DEFF Research Database (Denmark)

    Led, Jens Jørgen; Switon, Werner K.; Jensen, Kaj Frank

    1983-01-01

    The catalytic activity of highly purified Escherichia coli glycyl-tRNA synthetase has been studied by 31P-NMR spectroscopy and thin-layer chromatography on poly(ethyleneimine)-cellulose. It was found that this synthetase, besides the activation of its cognate amino acid and the syntheses of...... adenosine(5')tetraphospho(5')adenosine (Ap4A) and adenosine(5')triphospho(5')adenosine (Ap3A), also catalyzes the formation of ADP from inorganic phosphate and the enzyme-bound glycyl adenylate. Accordingly it was shown that E. coli glycyl-tRNA synthetase, in the presence of inorganic phosphate, glycine...... remaining catalytic activities of aminoacyl-tRNA synthetases is discussed, as well as the biological significance of the reaction....

  14. Expression of Brassica napus L. γ-Glutamylcysteine Synthetase and Low-and High-Affinity Sulfate Transporters in Response to Excess Cadmium

    Institute of Scientific and Technical Information of China (English)

    Xin SUN; Xue-Mei SUN; Zhi-Min YANG; Shao-Qiong LI; Jin WANG; Song-Hua WANG

    2005-01-01

    In both the roots and leaves ofBrassica napus L. cv. Youyan No. 8 under treatment with 30 μmol/L Cd, massive production of non-protein thiols (NPT; mainly containing glutathione (GSH) and phytochelatins (PCs)) was induced, together with an increase in γ-glutamylcysteine synthetase (γ-ECS)mRNA transcripts. Because γ-ECS is the key enzyme catalyzing the first step in GSH biosynthesis, which, in turn, is converted to PCs, the Cd-induced increase in γ-ECS expression may be responsible for the observed increase in the production of NPT. Using a quantitative reverse transcription polymerase chain reaction (RT-PCR) approach, the expression of genes encoding a putative low-affinity sulfate transporter (LAST) and a putative high-affinity sulfate transporter (HAST) was determined at the transcriptional level. The RT-PCR analysis of relative transcript amounts indicates that the LAST gene in B. napus leaves showed a constitutive expression, which was hardly affected by Cd treatment. However, treatment with 30 μmol/L Cd for 2 or 3 d induced a marked increase in the expression of LAST in roots. Transcriptional expression of the HAST gene occurred in roots, but not in leaves. The expression of HAST only in the roots suggests that it has a specific function in sulfate uptake from soil and that the putative LAST may be responsible for the transport of sulfate from the roots to the shoots, as well as for the uptake of sulfate from soil. These results indicate that changes in transcriptional expression for sulfate transporters were required for the increased demand for sulfate during Cd stress.

  15. Enhanced expression of glutamine synthetase (GS1a) confers altered fibre and wood chemistry in field grown hybrid poplar (Populus tremula X alba) (717-1B4).

    Science.gov (United States)

    Coleman, Heather D; Cánovas, Francisco M; Man, Huimin; Kirby, Edward G; Mansfield, Shawn D

    2012-09-01

    Hybrid poplar (Populus tremula X P. alba) genetically engineered to express the pine cytosolic glutamine synthetase gene (GS1a) has been previously shown to display desirable field performance characteristics, including enhancements in growth and nitrogen use efficiency. Analysis of wood samples from a 3-year-old field trial of three independently transformed GS1a transgenic hybrid poplar lines revealed that, when compared with wild-type controls, ectopic expression of GS1a resulted in alterations in wood properties and wood chemistry. Included were significant enhancements in wood fibre length, wood density, microfibre angle, per cent syringyl lignin and elevated concentrations of wood sugars, specifically glucose, galactose, mannose and xylose. Total extractive content and acid-insoluble lignin were significantly reduced in wood of GS1a transgenics when compared with wild-type trees. Together, these cell wall characteristics resulted in improved wood pulping attributes, including improved lignin solubilization with no concurrent decrease in yield. Trees with increased GS1a expression have improved characteristics for pulp and paper production and hold potential as a feedstock for biofuels production. PMID:22672155

  16. Biphasic effect of IL-1beta on the activity of argininosuccinate synthetase in Caco-2 cells. Involvement of nitric oxide production.

    Science.gov (United States)

    Brasse-Lagnel, Carole; Lavoinne, Alain; Fairand, Alain; Vavasseur, Karine; Deniel, Nicolas; Husson, Annie

    2006-06-01

    The expression of the argininosuccinate synthetase gene (ASS), the limiting enzyme of arginine synthesis, was previously shown to be rapidly induced by a short-term (4 h) exposure to IL-1beta in Caco-2 cells [Biochimie, 2005, 403-409]. The present report shows that, by contrast, a long-term (24 h) exposure to IL-1beta inhibited the ASS activity despite an increase in both specific mRNA level and protein amount, demonstrating a post-translational effect. Concerning the mechanism involved, we demonstrate that the inhibiting effect is linked to the production of nitric oxide (NO) induced by IL-1beta. Indeed, the inhibiting effect of IL-1beta was totally blocked in the presence of l-NMMA, an inhibitor of the inducible nitric oxide synthase, or by culturing the cells in an arginine-deprived medium. Moreover, a decrease in the ASS activity was induced by culturing the cells in the presence of SNAP, a NO donor. Conversely, blocking the action of NO by antioxidant agents, the stimulatory effect of IL-1beta on ASS activity was restored, as measured at 24 h. Finally, such an inhibiting effect of NO on ASS activity may be related, at least in part, to S-nitrosylation of the protein. The physiological relevance of the antagonistic effects of IL-1beta and NO on ASS is discussed.

  17. Studies on the Rice LEAF INCLINATION1 (LC1),an IAA-amido Synthetase, Reveal the Effects of Auxin in Leaf Inclination Control

    Institute of Scientific and Technical Information of China (English)

    Shu-Qing Zhao; Jing-Jing Xiang; Hong-Wei Xue

    2013-01-01

    The angle of rice leaf inclination is an important agronomic trait and closely related to the yields and architecture of crops.Although few mutants with altered leaf angles have been reported,the molecular mechanism remains to be elucidated,especially whether hormones are involved in this process.Through genetic screening,a rice gain-offunction mutant leaf inclination1,Ic1-D,was identified from the Shanghai T-DNA Insertion Population (SHIP).Phenotypic analysis confirmed the exaggerated leaf angles of Ic1-D due to the stimulated cell elongation at the lamina joint.LC1 is transcribed in various tissues and encodes OsGH3-1,an indole-3-acetic acid (IAA) amido synthetase,whose homolog of Arabidopsis functions in maintaining the auxin homeostasis by conjugating excess IAA to various amino acids.Indeed,recombinant LC1 can catalyze the conjugation of IAA to Ala,Asp,and Asn in vitro,which is consistent with the decreased free IAA amount in Ic1-D mutant.Ic1-D is insensitive to IAA and hypersensitive to exogenous BR,in agreement with the microarray analysis that reveals the altered transcriptions of genes involved in auxin signaling and BR biosynthesis.These results indicate the crucial roles of auxin homeostasis in the leaf inclination control.

  18. Improvement of an l-Leucine-Producing Mutant of Brevibacterium lactofermentum 2256 by Genetically Desensitizing It to α-Acetohydroxy Acid Synthetase

    OpenAIRE

    Tsuchida, Takayasu; Momose,Haruo

    1986-01-01

    Genetic improvement of l-leucine productivity in strain 218, an ile− 2-thiazolealanine-resistant mutant of Brevibacterium lactofermentum 2256, was attempted. In strain 218, which produced 28 mg of l-leucine per ml from 13% glucose, α-isopropylmalate synthetase was genetically desensitized and derepressed to the effect of l-leucine, whereas α-acetohydroxy acid synthetase remained unaltered, although it could be derepressed phenotypically by limiting the isoleucine concentration in the culture....

  19. The CcmFH complex is the system I holocytochrome c synthetase: engineering cytochrome c maturation independent of CcmABCDE

    OpenAIRE

    Francisco, Brian San; Sutherland, Molly C.; Kranz, Robert G.

    2014-01-01

    Cytochrome c maturation (ccm) in many bacteria, archaea, and plant mitochondria requires eight membrane proteins, CcmABCDEFGH, called system I. This pathway delivers and attaches heme covalently to two cysteines (of Cys-Xxx-Xxx-Cys-His) in the cytochrome c. All models propose that CcmFH facilitates covalent attachment of heme to the apocytochrome; namely, that it is the synthetase. However, holocytochrome c synthetase activity has not been directly demonstrated for CcmFH. We report formation ...

  20. Interferon titer and the 2',5'-oligoadenylate-synthetase activity in rat thymus lymphocytes in conditions of Omeprazol-caused hypergastrinemia

    Directory of Open Access Journals (Sweden)

    Kompanets I. V.

    2013-01-01

    Full Text Available The aim of this work was the determination of rat thymocytes response to hypergastrinemia evoked by hypoacidity and multiprobiotic «Symbiter® acidophilic concentrated» (symbiter treatment via the estimation of the interferon (IFN titer and 2', 5'-oligoadenylate (OA-synthetase activity in lymphocytes. 2', 5'-OA-synthetase is the IFN-induced enzyme. Methods. The micromethod of IFN titer determination by antiviral activity, spectrophotometrical method of 2', 5'-OA-synthetase activity determination. Results. It was shown that the IFN production by cultivated thymocytes is amplified while the 2', 5'-OA-synthetase activity decreases in these cells in conditions of hypoacidity caused by the 28-days omeprazol treatment. The treatment of animals by symbiter against a background of hypoacidity causes the augmentation of IFN production by thymocytes, but does not stimulate the 2', 5'-OA-synthetase activity. The IFN production by thymocytes in response to IFN inducers (PHA and cycloferone in vitro is intensified comparatively to the control at hypoacidity and symbiter treatment. Conclusions. The multiprobiotic symbiter exhibits interferonogenic properties. The IFN synthesis in response to induction in vitro is intensified in comparison with healthy animals at both hypoacidity and symbiter treatment while the 2', 5'-OA-synthetase acivity in thymocytes decreases.

  1. In vitro and in vivo effect of interleukin-2 on the 2',5'-oligoadenylate synthetase activity of peripheral mononuclear blood cells

    International Nuclear Information System (INIS)

    The in vitro and in vivo influence of interleukin-2 (IL-2) on 2',5'-oligoadenylate (2-5A) synthetase activity and natural killer (NK) activity of peripheral mononuclear blood cells (PBMCs) was investigated. Incubation of PBMCs in vitro with IL-2 resulted in a considerable secretion of interferon-gamma (IFN-gamma) and in a significant elevation of 2-5A synthetase activity, as well as NK activity. Neutralizing monoclonal anti-IFN-gamma antibodies inhibited the elevation of 2-5A synthetase activity, but not the IL-2-induced augmentation of NK activity. Additionally, 2-5A synthetase and NK activity of PBMCs was measured in a child with neuroblastoma that was treated with recombinant IL-2 by continuous intravenous application. During the treatment, NK activity against the NK-sensitive cell line K 562 and against autologous tumor cells was not augmented. However, a significant increase of 2-5A synthetase activity in PBMCs was observed during IL-2 treatment, whereas there was no detectable serum level of IFN-gamma. We conclude that measuring 2-5A synthetase activity in patients treated with IL-2 may be helpful in monitoring the immunomodulatory effects of IL-2 on immune effector cells

  2. Main: 1W07 [RPSD[Archive

    Lifescience Database Archive (English)

    Full Text Available 1; Arabidopsis Thaliana Molecule: Acyl-Coa Oxidase; Chain: A, B; Mutation: Yes; Engineered: Yes Oxidoreducta...AGSRHAFEVSDRIARLVASDPVFEKSNRARLSRKELFKSTLRKCAHAFKRIIELRLNEEEAGRLRHFIDQPAYVDLHWGMFVPAI...YLWCSGLPELFAVYVPACTYEGDNVVLQLQVARFLMKTVAQLGSGKVPVGTTAYMGRAAHLLQCRSGVQKAEDWLNPDVVLEAFEARALRMAVTCAKNLSKFENQEQGFQELLADLVEAAI

  3. Three-dimensional structure of phosphoribosyl pyrophosphate synthetase from E. coli at 2.71 Å resolution

    Energy Technology Data Exchange (ETDEWEB)

    Timofeev, V. I., E-mail: inna@ns.crys.ras.ru, E-mail: tostars@mail.ru, E-mail: ugama@yandex.ru [Russian Academy of Sciences, Shubnikov Institute of Crystallography (Russian Federation); Abramchik, Yu. A. [Russian Academy of Sciences, Shemyakin–Ovchinnikov Institute of Bioorganic Chemistry (Russian Federation); Zhukhlistova, N. E. [Russian Academy of Sciences, Shubnikov Institute of Crystallography (Russian Federation); Muravieva, T. I.; Esipov, R. S. [Russian Academy of Sciences, Shemyakin–Ovchinnikov Institute of Bioorganic Chemistry (Russian Federation); Kuranova, I. P. [Russian Academy of Sciences, Shubnikov Institute of Crystallography (Russian Federation)

    2016-01-15

    Phosphoribosyl pyrophosphate synthetase from Escherichia coli was cloned, purified, and crystallized. Single crystals of the enzyme were grown under microgravity. The X-ray diffraction data set was collected at the Spring-8 synchrotron facility and used to determine the three-dimensional structure of the enzyme by the molecular-replacement method at 2.71 Å resolution. The active and regulatory sites in the molecule of E. coli phosphoribosyl pyrophosphate synthetase were revealed by comparison with the homologous protein from Bacillus subtilis, the structure of which was determined in a complex with functional ligands. The conformations of polypeptide-chain fragments surrounding and composing the active and regulatory sites were shown to be identical in both proteins.

  4. Synthesis and in vitro/in vivo Evaluation of the Antitrypanosomal Activity of 3-Bromoacivicin, a Potent CTP Synthetase Inhibitor

    Science.gov (United States)

    Conti, Paola; Pinto, Andrea; Wong, Pui E; Major, Louise L; Tamborini, Lucia; Iannuzzi, Maria C; De Micheli, Carlo; Barrett, Michael P; Smith, Terry K

    2011-01-01

    Abstract The first convenient synthesis of enantiomerically pure (αS,5S)-α-amino-3-bromo-4,5-dihydroisoxazol-5-yl acetic acid (3-bromoacivicin) is described. We demonstrate that 3-bromoacivicin is a CTP synthetase inhibitor three times as potent as its 3-chloro analogue, the natural antibiotic acivicin. Because CTP synthetase was suggested to be a potential drug target in African trypanosomes, the in vitro/in vivo antitrypanosomal activity of 3-bromoacivicin was assessed in comparison with acivicin. Beyond expectation, we observed a 12-fold enhancement in the in vitro antitrypanosomal activity, while toxicity against mammalian cells remained unaffected. Despite its good in vitro activity and selectivity, 3-bromoacivicin proved to be trypanostatic and failed to completely eradicate the infection when tested in vivo at its maximum tolerable dose. PMID:21275056

  5. Three-dimensional structure of phosphoribosyl pyrophosphate synthetase from E. coli at 2.71 Å resolution

    International Nuclear Information System (INIS)

    Phosphoribosyl pyrophosphate synthetase from Escherichia coli was cloned, purified, and crystallized. Single crystals of the enzyme were grown under microgravity. The X-ray diffraction data set was collected at the Spring-8 synchrotron facility and used to determine the three-dimensional structure of the enzyme by the molecular-replacement method at 2.71 Å resolution. The active and regulatory sites in the molecule of E. coli phosphoribosyl pyrophosphate synthetase were revealed by comparison with the homologous protein from Bacillus subtilis, the structure of which was determined in a complex with functional ligands. The conformations of polypeptide-chain fragments surrounding and composing the active and regulatory sites were shown to be identical in both proteins

  6. Arabidopsis acyl-acyl carrier protein synthetase AAE15 with medium chain fatty acid specificity is functional in cyanobacteria

    OpenAIRE

    Kaczmarzyk, Danuta; Hudson, Elton P.; Fulda, Martin

    2016-01-01

    Cyanobacteria are potential hosts for the biosynthesis of oleochemical compounds. The metabolic precursors for such compounds are fatty acids and their derivatives, which require chemical activation to become substrates in further conversion steps. We characterized the acyl activating enzyme AAE15 of Arabidopsis encoded by At4g14070, which is a homologue of a cyanobacterial acyl-ACP synthetase (AAS). We expressed AAE15 in insect cells and demonstrated its AAS activity with medium chain fatty ...

  7. Nanomolar inhibitors of Mycobacterium tuberculosis glutamine synthetase 1: synthesis, biological evaluation and X-ray crystallographic studies.

    Science.gov (United States)

    Couturier, Cédric; Silve, Sandra; Morales, Renaud; Pessegue, Bernard; Llopart, Sylvie; Nair, Anil; Bauer, Armin; Scheiper, Bodo; Pöverlein, Christoph; Ganzhorn, Axel; Lagrange, Sophie; Bacqué, Eric

    2015-04-01

    A series of imidazo[1,2-a]indeno[1,2-e]pyrazin-4-ones that potently inhibit M. tuberculosis glutamine synthetase (GlnA1) has been identified by high throughput screening. Exploration of this series was performed owing to a short chemistry program. Despite possibly nanomolar inhibitions, none of these compounds was active on whole cell Mtb, suggesting that GlnA1 may not be a suitable target to find new anti-tubercular drugs.

  8. Effect of some D-amino acids on the steady-state level of glutamine synthetase in Escherichia coli.

    OpenAIRE

    Berberich, M A

    1985-01-01

    D-Glutamate can elicit an increase in the specific activity of glutamine synthetase (GS) when added to cells growing in the presence of high ammonia nitrogen. This effect is independent of glutamate dehydrogenase or glutamate synthase activities and could not be provoked by the addition of the various metabolites which participate in the regulation of GS in the covalent modification system. Neither could an increase in GS level be elicited by addition of any of the D-amino acids which functio...

  9. New Class of Bacterial Phenylalanyl-tRNA Synthetase Inhibitors with High Potency and Broad-Spectrum Activity

    OpenAIRE

    Beyer, Dieter; Kroll, Hein-Peter; Endermann, Rainer; Schiffer, Guido; Siegel, Stephan; Bauser, Marcus; Pohlmann, Jens; Brands, Michael; Ziegelbauer, Karl; Haebich, Dieter; Eymann, Christine; Brötz-Oesterhelt, Heike

    2004-01-01

    Phenylalanyl (Phe)-tRNA synthetase (Phe-RS) is an essential enzyme which catalyzes the transfer of phenylalanine to the Phe-specific transfer RNA (tRNAPhe), a key step in protein biosynthesis. Phenyl-thiazolylurea-sulfonamides were identified as a novel class of potent inhibitors of bacterial Phe-RS by high-throughput screening and chemical variation of the screening hit. The compounds inhibit Phe-RS of Escherichia coli, Haemophilus influenzae, Streptococcus pneumoniae, and Staphylococcus aur...

  10. Acetyl-CoA synthetase 2 promotes acetate utilization and maintains cancer cell growth under metabolic stress

    OpenAIRE

    Schug, Zachary T.; Peck, Barrie; Jones, Dylan T; Zhang, Qifeng; Grosskurth, Shaun; Alam, Israt S.; Goodwin, Louise M.; Smethurst, Elizabeth; Mason, Susan; Blyth, Karen; McGarry, Lynn; James, Daniel; Shanks, Emma; Kalna, Gabriela; Saunders, Rebecca E.

    2015-01-01

    Summary A functional genomics study revealed that the activity of acetyl-CoA synthetase 2 (ACSS2) contributes to cancer cell growth under low-oxygen and lipid-depleted conditions. Comparative metabolomics and lipidomics demonstrated that acetate is used as a nutritional source by cancer cells in an ACSS2-dependent manner, and supplied a significant fraction of the carbon within the fatty acid and phospholipid pools. ACSS2 expression is upregulated under metabolically stressed conditions and A...

  11. Biochemical analyses of ppGpp effect on adenylosuccinate synthetases, key enzymes in purine biosynthesis in rice.

    Science.gov (United States)

    Nomura, Yuhta; Nozawa, Akira; Tozawa, Yuzuru

    2014-01-01

    The ppGpp-signaling system functions in plant chloroplasts. In bacteria, a negative effect of ppGpp on adenylosuccinate synthetase (AdSS) has been suggested. Our biochemical analysis also revealed rice AdSS homologs are apparently sensitive to ppGpp. However, further investigation clarified that this phenomenon is cancelled by the high substrate affinity to the enzymes, leading to a limited effect of ppGpp on adenylosuccinate synthesis.

  12. Dexamethasone enhances glutamine synthetase activity and reduces N-methyl-D-aspartate neurotoxicity in mixed cultures of neurons and astrocytes

    Directory of Open Access Journals (Sweden)

    Edith Debroas

    2015-05-01

    Full Text Available Astrocytes are claimed to protect neurons against excitotoxicity by clearing glutamate from the extracellular space and rapidly converting it into glutamine. Glutamine, is then released into the extracellular medium, taken up by neurons and transformed back into glutamate which is then stored into synaptic vesicles. Glutamine synthetase (GS, the key enzyme that governs this glutamate/glutamine cycle, is known to be upregulated by glucocorticoids. In the present work we have thus studied in parallel the effects of dexamethasone on glutamine synthetase activity and NMDA-induced neuronal death in cultures derived from the brain cortex of murine embryos. We showed that dexamethasone was able to markedly enhance GS activity in cultures of astrocytes but not in near pure neuronal cultures. The pharmacological characteristics of the dexamethasone action strongly suggest that it corresponds to a typical receptor-mediated effect. We also observed that long lasting incubation (72 h of mixed astrocyte-neuron cultures in the presence of 100 nM dexamethasone significantly reduced the toxicity of NMDA treatment. Furthermore we demonstrated that methionine sulfoximine, a selective inhibitor of GS, abolished the dexamethasone-induced increase in GS activity and also markedly potentiated NMDA toxicity. Altogether these results suggest that dexamethasone may promote neuroprotection through a stimulation of astrocyte glutamine synthetase.

  13. MD Simulations of tRNA and Aminoacyl-tRNA Synthetases: Dynamics, Folding, Binding, and Allostery

    Directory of Open Access Journals (Sweden)

    Rongzhong Li

    2015-07-01

    Full Text Available While tRNA and aminoacyl-tRNA synthetases are classes of biomolecules that have been extensively studied for decades, the finer details of how they carry out their fundamental biological functions in protein synthesis remain a challenge. Recent molecular dynamics (MD simulations are verifying experimental observations and providing new insight that cannot be addressed from experiments alone. Throughout the review, we briefly discuss important historical events to provide a context for how far the field has progressed over the past few decades. We then review the background of tRNA molecules, aminoacyl-tRNA synthetases, and current state of the art MD simulation techniques for those who may be unfamiliar with any of those fields. Recent MD simulations of tRNA dynamics and folding and of aminoacyl-tRNA synthetase dynamics and mechanistic characterizations are discussed. We highlight the recent successes and discuss how important questions can be addressed using current MD simulations techniques. We also outline several natural next steps for computational studies of AARS:tRNA complexes.

  14. Crystal structure of tetrameric form of human lysyl-tRNA synthetase: Implications for multisynthetase complex formation

    Energy Technology Data Exchange (ETDEWEB)

    Guo, Min; Ignatov, Michael; Musier-Forsyth, Karin; Schimmel, Paul; Yang, Xiang-Lei (OSU); (Scripps)

    2008-09-17

    In mammals, many aminoacyl-tRNA synthetases are bound together in a multisynthetase complex (MSC) as a reservoir of procytokines and regulation molecules for functions beyond aminoacylation. The {alpha}{sub 2} homodimeric lysyl-tRNA synthetase (LysRS) is tightly bound in the MSC and, under specific conditions, is secreted to trigger a proinflammatory response. Results by others suggest that {alpha}{sub 2} LysRS is tightly bound into the core of the MSC with homodimeric {beta}{sub 2} p38, a scaffolding protein that itself is multifunctional. Not understood is how the two dimeric proteins combine to make a presumptive {alpha}{sub 2}{beta}{sub 2} heterotetramer and, in particular, the location of the surfaces on LysRS that would accommodate the p38 interactions. Here we present a 2.3-{angstrom} crystal structure of a tetrameric form of human LysRS. The relatively loose (as seen in solution) tetramer interface is assembled from two eukaryote-specific sequences, one in the catalytic- and another in the anticodon-binding domain. This same interface is predicted to provide unique determinants for interaction with p38. The analyses suggest how the core of the MSC is assembled and, more generally, that interactions and functions of synthetases can be built and regulated through dynamic protein-protein interfaces. These interfaces are created from small adaptations to what is otherwise a highly conserved (through evolution) polypeptide sequence.

  15. Glutamic acid gamma-monohydroxamate and hydroxylamine are alternate substrates for Escherichia coli asparagine synthetase B.

    Science.gov (United States)

    Boehlein, S K; Schuster, S M; Richards, N G

    1996-03-01

    Escherichia coli asparagine synthetase B (AS-B) catalyzes the synthesis of asparagine from aspartic acid and glutamine in an ATP-dependent reaction. The ability of this enzyme to employ hydroxylamine and L-glutamic acid gamma-monohydroxamate (LGH) as alternative substrates in place of ammonia and L-glutamine, respectively, has been investigated. The enzyme is able to function as an amidohydrolase, liberating hydroxylamine from LGH with high catalytic efficiency, as measured by k(cat)/K(M). In addition, the kinetic parameters determined for hydroxylamine in AS-B synthetase activity are very similar to those of ammonia. Nitrogen transfer from LGH to yield aspartic acid beta-monohydroxamate is also catalyzed by AS-B. While such an observation has been made for a few members of the trpG amidotransferase family, our results appear to be the first demonstration that nitrogen transfer can occur from glutamine analogs in a purF amidotransferase. However, k(cat)/K(M) for the ATP-dependent transfer of hydroxylamine from LGH to aspartic acid is reduced 3-fold relative to that for glutamine-dependent asparagine synthesis. Further, the AS-B mutant in which asparagine is replaced by alanine (N74A) can also use hydroxylamine as an alternate substrate to ammonia and catalyze the hydrolysis of LGH. The catalytic efficiencies (k(cat)/K(M)) of nitrogen transfer from LGH and L-glutamine to beta-aspartyl-AMP are almost identical for the N74A AS-B mutant. These observations support the proposal that Asn-74 plays a role in catalyzing glutamine-dependent nitrogen transfer. We interpret our kinetic data as further evidence against ammonia-mediated nitrogen transfer from glutamine in the purF amidotransferase AS-B. These results are consistent with two alternate chemical mechanisms that have been proposed for this reaction [Boehlein, S. K., Richards, N. G. J., Walworth, E. S., & Schuster, S. M. (1994) J. Biol. Chem. 269, 26789-26795].

  16. Motifs in the C-terminal region of the Penicillium chrysogenum ACV synthetase are essential for valine epimerization and processivity of tripeptide formation.

    Science.gov (United States)

    Wu, Xiaobin; García-Estrada, Carlos; Vaca, Inmaculada; Martín, Juan-Francisco

    2012-02-01

    The first step in the penicillin biosynthetic pathway is the non-ribosomal condensation of L-α-aminoadipic acid, L-cysteine and L-valine into the tripeptide δ-(L-α-aminoadipyl)-L-cysteinyl-D-valine (ACV). This reaction is catalysed by the multienzyme ACV synthetase (ACVS), which is encoded in the filamentous fungus Penicillium chrysogenum by the pcbAB gene. This enzyme contains at least ten catalytic domains. The precise role of the C-terminal domain of this multidomain NRPS still remains obscure. The C-terminal region of ACVS bears the epimerase and the thioesterase domains and may be involved in the epimerization of LLL-ACV to LLD-ACV and in the hydrolysis of the thioester bond. In this work, the conserved motifs (3371)EGHGRE(3376) (located in the putative epimerase domain) and (3629)GWSFG(3633) (located in the thioesterase domain) were changed by site-directed-mutagenesis to LGFGLL and GWAFG, respectively. In addition, the whole thioesterase domain (230 amino acids) and the different parts of this domain were deleted. The activity of these mutant enzymes was assessed in vivo by two different procedures: i) through the quantification of bisACV produced by the fungus and ii) by quantifying the benzylpenicillin production using tailored strains of P. chrysogenum, which lack the pcbAB gene, as host strains. All indicated mutant enzymes showed lower or null activity than the control strain confirming that E3371, H3373, R3375 and E3376 belong to the epimerase active centre. Different fragments included in the C-terminal region of ACVS control thioester hydrolysis. Overexpression of the sequence encoding the ACVS integrated thioesterase domain as a separate (stand-alone) transcriptional unit complemented mutants lacking the integrated thioesterase domain, although with low ACV releasing activity, suggesting that the stand-alone thioesterease interacts with the other ACVS domains.

  17. Genetic and biochemical analyses of chromosome and plasmid gene homologues encoding ICL and ArCP domains in Vibrioanguillarum strain 775

    NARCIS (Netherlands)

    Di Lorenzo, M.; Stork, M.; Crosa, J.H.

    2011-01-01

    Anguibactin, the siderophore produced by Vibrio anguillarum 775 is synthesized from 2,3-dihydroxybenzoic acid (DHBA), cysteine and hydroxyhistamine via a nonribosomal peptide synthetase (NRPS) mechanism. Most of the genes encoding anguibactin biosynthetic proteins are harbored by the pJM1 plasmid. I

  18. Identification of the Biosynthetic Gene Clusters for the Lipopeptides Fusaristatin A and W493 B in Fusarium graminearum and F. pseudograminearum

    DEFF Research Database (Denmark)

    Sørensen, Jens Laurids; Sondergaard, Teis Esben; Covarelli, Lorenzo;

    2014-01-01

    The closely related species Fusarium graminearum and Fusarium pseudograminearum differ in that each contains a gene cluster with a polyketide synthase (PKS) and a nonribosomal peptide synthetase (NRPS) that is not present in the other species. To identify their products, we deleted PKS6 and NRPS7...

  19. Crystallization and preliminary X-ray diffraction study of phosphoribosyl pyrophosphate synthetase from E. Coli

    Energy Technology Data Exchange (ETDEWEB)

    Timofeev, V. I., E-mail: inna@ns.crys.ras.ru; Abramchik, Yu. A., E-mail: tostars@mail.ru; Zhukhlistova, N. E., E-mail: ugama@yandex.ru; Kuranova, I. P. [Russian Academy of Sciences, Shubnikov Institute of Crystallography (Russian Federation)

    2015-09-15

    Enzymes of the phosphoribosyl pyrophosphate synthetase family (PRPPS, EC 2.7.6.1) catalyze the formation of 5-phosphoribosyl pyrophosphate (5-PRPP) from adenosine triphosphate and ribose 5-phosphate. 5-Phosphoribosyl pyrophosphate is an important intermediate in the synthesis of purine, pyrimidine, and pyridine nucleotides, as well as of the amino acids histidine and tryptophan. The crystallization conditions for E. coli PRPPS were found by the vapor-diffusion technique and were optimized to apply the capillary counter-diffusion technique. The X-ray diffraction data set was collected from the crystals grown by the counter-diffusion technique using a synchrotron radiation source to 3.1-Å resolution. The crystals of PRPPS belong to sp. gr. P6{sub 3}22 and have the following unit-cell parameters: a = b = 104.44 Å, c = 124.98 Å, α = β = 90°, γ = 120°. The collected X-ray diffraction data set is suitable for the solution of the three-dimensional structure of PRPPS at 3.1-Å resolution.

  20. Role of tRNAPro in pretransfer editing of alanine by prolyl-tRNA synthetase

    Directory of Open Access Journals (Sweden)

    Boyarshin K. S.

    2013-09-01

    Full Text Available Aim. To characterize the process of tRNA-dependent pretransfer edi- ting of alanine by prolyl-tRNA synthetase of bacteria Enterococcus faecalis (ProRSEf. Methods. Velocity of the editing processes in vitro was determined by ATP hydrolysis by ProRSEf. Pretransfer and posttransfer editing were experimentally separated by site-directed mutagenesis. Results. tRNA-dependent pretransfer editing is characterized by three-fold larger velocity then tRNA-independent editing. Effectivity of the process depends on the presence of 2'-hydroxyle group of A76 tRNAPro. In the absence of tRNAPro selective release of alanyl-AMP occurs simultaneously with tRNA-independent pretransfer editing. Released alanyl-AMP can be re-bound and hydrolyzed. Conclusions. tRNA-dependent pretransfer editing of alanine by ProRSEf is the catalytic mechanism, mediated by 2'-hydroxyl group of A76 tRNAPro. In the absence of tRNAPro tRNA-independent pretransfer editing and selective release of alanyl-AMP occur.

  1. Characterization of the acetyl-CoA synthetase of Acetobacter aceti.

    Science.gov (United States)

    O'Sullivan, J; Ettlinger, L

    1976-12-20

    The acetate activating system of Acetobacter aceti has been studied. The enzyme responsible, acetyl-CoA synthetase, has been purified about 500-fold from crude cell extracts and was approximately 85% pure as judged by polyacrylamide gel electrophoresis in sodium dodecyl sulphate. The purified enzyme showed optimal activity at pH 7.6 in both Tris-HCL and potassium phosphate buffers. In its purest form, the enzyme was stable at 4 degrees-C but denatured upon freezing. The Km values for CoA, ATP and acetate were found to be 0.104 mM, 0.36 mM and 0.25 mM respectively; propionate and acrylate were also activated by the enzyme but not butyrate, isobutyrate or valerate. GTP, UTP, CTP and ADP could not replace ATP in the reaction, and cysteine or pantetheine failed to replace CoA. The cationic requirements were studied and of the divalent cations tested, only Mn2+ could significantly replace Mg2+ in the reaction; K+ and NH4+ stimulated enzyme activity but inhibited at high concentrations; Na+ was a poor activator, but did not inhibit at higher concentrations. The effect of a number of glucose and other metabolites on enzyme activity has been tested. PMID:12800

  2. Physiological Studies of Glutamine Synthetases I and III from Synechococcus sp. WH7803 Reveal Differential Regulation

    Science.gov (United States)

    Domínguez-Martín, María Agustina; Díez, Jesús; García-Fernández, José M.

    2016-01-01

    The marine picocyanobacterium Synechococcus sp. WH7803 possesses two glutamine synthetases (GSs; EC 6.3.1.2), GSI encoded by glnA and GSIII encoded by glnN. This is the first work addressing the physiological regulation of both enzymes in a marine cyanobacterial strain. The increase of GS activity upon nitrogen starvation was similar to that found in other model cyanobacteria. However, an unusual response was found when cells were grown under darkness: the GS activity was unaffected, reflecting adaptation to the environment where they thrive. On the other hand, we found that GSIII did not respond to nitrogen availability, in sharp contrast with the results observed for this enzyme in other cyanobacteria thus far studied. These features suggest that GS activities in Synechococcus sp. WH7803 represent an intermediate step in the evolution of cyanobacteria, in a process of regulatory streamlining where GSI lost the regulation by light, while GSIII lost its responsiveness to nitrogen. This is in good agreement with the phylogeny of Synechococcus sp. WH7803 in the context of the marine cyanobacterial radiation. PMID:27446010

  3. Discovery of potent anti-tuberculosis agents targeting leucyl-tRNA synthetase.

    Science.gov (United States)

    Gudzera, Olga I; Golub, Andriy G; Bdzhola, Volodymyr G; Volynets, Galyna P; Lukashov, Sergiy S; Kovalenko, Oksana P; Kriklivyi, Ivan A; Yaremchuk, Anna D; Starosyla, Sergiy A; Yarmoluk, Sergiy M; Tukalo, Michail A

    2016-03-01

    Tuberculosis is a serious infectious disease caused by human pathogen bacteria Mycobacterium tuberculosis. Bacterial drug resistance is a very significant medical problem nowadays and development of novel antibiotics with different mechanisms of action is an important goal of modern medical science. Leucyl-tRNA synthetase (LeuRS) has been recently clinically validated as antimicrobial target. Here we report the discovery of small-molecule inhibitors of M. tuberculosis LeuRS. Using receptor-based virtual screening we have identified six inhibitors of M. tuberculosis LeuRS from two different chemical classes. The most active compound 4-{[4-(4-Bromo-phenyl)-thiazol-2-yl]hydrazonomethyl}-2-methoxy-6-nitro-phenol (1) inhibits LeuRS with IC50 of 6μM. A series of derivatives has been synthesized and evaluated in vitro toward M. tuberculosis LeuRS. It was revealed that the most active compound 2,6-Dibromo-4-{[4-(4-nitro-phenyl)-thiazol-2-yl]-hydrazonomethyl}-phenol inhibits LeuRS with IC50 of 2.27μM. All active compounds were tested for antimicrobial effect against M. tuberculosis H37Rv. The compound 1 seems to have the best cell permeability and inhibits growth of pathogenic bacteria with IC50=10.01μM and IC90=13.53μM.

  4. Selective inhibition of apicoplast tryptophanyl-tRNA synthetase causes delayed death in Plasmodium falciparum.

    Science.gov (United States)

    Pasaje, Charisse Flerida A; Cheung, Vanessa; Kennedy, Kit; Lim, Erin E; Baell, Jonathan B; Griffin, Michael D W; Ralph, Stuart A

    2016-01-01

    The malaria parasite Plasmodium falciparum relies on efficient protein translation. An essential component of translation is the tryptophanyl-tRNA synthetase (TrpRS) that charges tRNA(trp). Here we characterise two isoforms of TrpRS in Plasmodium; one eukaryotic type localises to the cytosol and a bacterial type localises to the remnant plastid (apicoplast). We show that the apicoplast TrpRS aminoacylates bacterial tRNA(trp) while the cytosolic TrpRS charges eukaryotic tRNA(trp). An inhibitor of bacterial TrpRSs, indolmycin, specifically inhibits aminoacylation by the apicoplast TrpRS in vitro, and inhibits ex vivo Plasmodium parasite growth, killing parasites with a delayed death effect characteristic of apicoplast inhibitors. Indolmycin treatment ablates apicoplast inheritance and is rescuable by addition of the apicoplast metabolite isopentenyl pyrophosphate (IPP). These data establish that inhibition of an apicoplast housekeeping enzyme leads to loss of the apicoplast and this is sufficient for delayed death. Apicoplast TrpRS is essential for protein translation and is a promising, specific antimalarial target. PMID:27277538

  5. Glutamine synthetase in Durum Wheat: Genotypic Variation and Relationship with Grain Protein Content.

    Science.gov (United States)

    Nigro, Domenica; Fortunato, Stefania; Giove, Stefania L; Paradiso, Annalisa; Gu, Yong Q; Blanco, Antonio; de Pinto, Maria C; Gadaleta, Agata

    2016-01-01

    Grain protein content (GPC), is one of the most important trait in wheat and its characterized by a very complex genetic control. The identification of wheat varieties with high GPC (HGPC), as well as the characterization of central enzymes involved in these processes, are important for more sustainable agricultural practices. In this study, we focused on Glutamine synthetase (GS) as a candidate to study GPC in wheat. We analyzed GS expression and its enzymatic activity in different tissues and phenological stages in 10 durum wheat genotypes with different GPC. Although each genotype performed quite differently from the others, both because their genetic variability and their adaptability to specific environmental conditions, the highest GS activity and expression were found in genotypes with HGPC and vice versa the lowest ones in genotypes with low GPC (LGPC). Moreover, in genotypes contrasting in GPC bred at different nitrogen regimes (0, 60, 140 N Unit/ha) GS behaved differently in diverse organs. Nitrogen supplement increased GS expression and activity in roots of all genotypes, highlighting the key role of this enzyme in nitrogen assimilation and ammonium detoxification in roots. Otherwise, nitrogen treatments decreased GS expression and activity in the leaves of HGPC genotypes and did not affect GS in the leaves of LGPC genotypes. Finally, no changes in GS and soluble protein content occurred at the filling stage in the caryopses of all analyzed genotypes. PMID:27468287

  6. Argininosuccinate synthetase regulates hepatic AMPK linking protein catabolism and ureagenesis to hepatic lipid metabolism.

    Science.gov (United States)

    Madiraju, Anila K; Alves, Tiago; Zhao, Xiaojian; Cline, Gary W; Zhang, Dongyan; Bhanot, Sanjay; Samuel, Varman T; Kibbey, Richard G; Shulman, Gerald I

    2016-06-14

    A key sensor of cellular energy status, AMP-activated protein kinase (AMPK), interacts allosterically with AMP to maintain an active state. When active, AMPK triggers a metabolic switch, decreasing the activity of anabolic pathways and enhancing catabolic processes such as lipid oxidation to restore the energy balance. Unlike oxidative tissues, in which AMP is generated from adenylate kinase during states of high energy demand, the ornithine cycle enzyme argininosuccinate synthetase (ASS) is a principle site of AMP generation in the liver. Here we show that ASS regulates hepatic AMPK, revealing a central role for ureagenesis flux in the regulation of metabolism via AMPK. Treatment of primary rat hepatocytes with amino acids increased gluconeogenesis and ureagenesis and, despite nutrient excess, induced both AMPK and acetyl-CoA carboxylase (ACC) phosphorylation. Antisense oligonucleotide knockdown of hepatic ASS1 expression in vivo decreased liver AMPK activation, phosphorylation of ACC, and plasma β-hydroxybutyrate concentrations. Taken together these studies demonstrate that increased amino acid flux can activate AMPK through increased AMP generated by ASS, thus providing a novel link between protein catabolism, ureagenesis, and hepatic lipid metabolism. PMID:27247419

  7. Intestinal acyl-CoA synthetase 5: activation of long chain fatty acids and behind.

    Science.gov (United States)

    Klaus, Christina; Jeon, Min Kyung; Kaemmerer, Elke; Gassler, Nikolaus

    2013-11-14

    The intestinal mucosa is characterized by a high complexity in terms of structure and functions and allows for a controlled demarcation towards the gut lumen. On the one hand it is responsible for pulping and selective absorption of alimentary substances ensuring the immunological tolerance, on the other hand it prevents the penetration of micro-organisms as well as bacterial outgrowth. The continuous regeneration of surface epithelia along the crypt-villus-axis in the small intestine is crucial to assuring these various functions. The core phenomena of intestinal epithelia regeneration comprise cell proliferation, migration, differentiation, and apoptosis. These partly contrarily oriented processes are molecularly balanced through numerous interacting signaling pathways like Wnt/β-catenin, Notch and Hedgehog, and regulated by various modifying factors. One of these modifiers is acyl-CoA synthetase 5 (ACSL5). It plays a key role in de novo lipid synthesis, fatty acid degradation and membrane modifications, and regulates several intestinal processes, primarily through different variants of protein lipidation, e.g., palmitoylation. ACSL5 was shown to interact with proapoptotic molecules, and besides seems to inhibit proliferation along the crypt-villus-axis. Because of its proapoptotic and antiproliferative characteristics it could be of significant relevance for intestinal homeostasis, cellular disorder and tumor development. PMID:24259967

  8. Assessment of glutamine synthetase activity by [13N]ammonia uptake in living rat brain.

    Science.gov (United States)

    Momosaki, Sotaro; Ito, Miwa; Tonomura, Misato; Abe, Kohji

    2015-01-01

    Glutamine synthetase (GS) plays an important role in glutamate neurotransmission or neurological disorder in the brain. [(13) N]Ammonia blood flow tracer has been reported to be metabolically trapped in the brain via the glutamate-glutamine pathway. The present study investigated the effect of an inhibitor of GS on [(13) N]ammonia uptake in order to clarify the feasibility of measuring GS activity in the living brain. l-Methionine sulfoximine (MSO), a selective GS inhibitor was microinjected into the ipsilateral striatum in rats. [(13) N]Ammonia uptake was quantified by autoradiography method as well as small animal positron emission tomography (PET) scans. The GS activity of the brain homogenate was assayed from the γ-glutamyl transferase reaction. Autoradiograms showed a decrease of [(13) N]ammonia radioactivity on the MSO-injected side compared with the saline-injected side of the striatum. This reduction could be detected with a small animal PET scanner. MSO had no effect on cerebral blood flow measured by uptake of [(15) O]H2 O. The reduction of [(13) N]ammonia uptake was closely related to the results of GS activity assay. These results indicated that [(13) N]ammonia may enable measurement of GS activity in the living brain.

  9. Proximal tubule-specific glutamine synthetase deletion alters basal and acidosis-stimulated ammonia metabolism.

    Science.gov (United States)

    Lee, Hyun-Wook; Osis, Gunars; Handlogten, Mary E; Lamers, Wouter H; Chaudhry, Farrukh A; Verlander, Jill W; Weiner, I David

    2016-06-01

    Glutamine synthetase (GS) catalyzes the recycling of NH4 (+) with glutamate to form glutamine. GS is highly expressed in the renal proximal tubule (PT), suggesting ammonia recycling via GS could decrease net ammoniagenesis and thereby limit ammonia available for net acid excretion. The purpose of the present study was to determine the role of PT GS in ammonia metabolism under basal conditions and during metabolic acidosis. We generated mice with PT-specific GS deletion (PT-GS-KO) using Cre-loxP techniques. Under basal conditions, PT-GS-KO increased urinary ammonia excretion significantly. Increased ammonia excretion occurred despite decreased expression of key proteins involved in renal ammonia generation. After the induction of metabolic acidosis, the ability to increase ammonia excretion was impaired significantly by PT-GS-KO. The blunted increase in ammonia excretion occurred despite greater expression of multiple components of ammonia generation, including SN1 (Slc38a3), phosphate-dependent glutaminase, phosphoenolpyruvate carboxykinase, and Na(+)-coupled electrogenic bicarbonate cotransporter. We conclude that 1) GS-mediated ammonia recycling in the PT contributes to both basal and acidosis-stimulated ammonia metabolism and 2) adaptive changes in other proteins involved in ammonia metabolism occur in response to PT-GS-KO and cause an underestimation of the role of PT GS expression.

  10. Glutamine synthetase activity fuels nucleotide biosynthesis and supports growth of glutamine-restricted glioblastoma.

    Science.gov (United States)

    Tardito, Saverio; Oudin, Anaïs; Ahmed, Shafiq U; Fack, Fred; Keunen, Olivier; Zheng, Liang; Miletic, Hrvoje; Sakariassen, Per Øystein; Weinstock, Adam; Wagner, Allon; Lindsay, Susan L; Hock, Andreas K; Barnett, Susan C; Ruppin, Eytan; Mørkve, Svein Harald; Lund-Johansen, Morten; Chalmers, Anthony J; Bjerkvig, Rolf; Niclou, Simone P; Gottlieb, Eyal

    2015-12-01

    L-Glutamine (Gln) functions physiologically to balance the carbon and nitrogen requirements of tissues. It has been proposed that in cancer cells undergoing aerobic glycolysis, accelerated anabolism is sustained by Gln-derived carbons, which replenish the tricarboxylic acid (TCA) cycle (anaplerosis). However, it is shown here that in glioblastoma (GBM) cells, almost half of the Gln-derived glutamate (Glu) is secreted and does not enter the TCA cycle, and that inhibiting glutaminolysis does not affect cell proliferation. Moreover, Gln-starved cells are not rescued by TCA cycle replenishment. Instead, the conversion of Glu to Gln by glutamine synthetase (GS; cataplerosis) confers Gln prototrophy, and fuels de novo purine biosynthesis. In both orthotopic GBM models and in patients, (13)C-glucose tracing showed that GS produces Gln from TCA-cycle-derived carbons. Finally, the Gln required for the growth of GBM tumours is contributed only marginally by the circulation, and is mainly either autonomously synthesized by GS-positive glioma cells, or supplied by astrocytes.

  11. Glutamine synthetase in Durum Wheat: Genotypic Variation and Relationship with Grain Protein Content.

    Science.gov (United States)

    Nigro, Domenica; Fortunato, Stefania; Giove, Stefania L; Paradiso, Annalisa; Gu, Yong Q; Blanco, Antonio; de Pinto, Maria C; Gadaleta, Agata

    2016-01-01

    Grain protein content (GPC), is one of the most important trait in wheat and its characterized by a very complex genetic control. The identification of wheat varieties with high GPC (HGPC), as well as the characterization of central enzymes involved in these processes, are important for more sustainable agricultural practices. In this study, we focused on Glutamine synthetase (GS) as a candidate to study GPC in wheat. We analyzed GS expression and its enzymatic activity in different tissues and phenological stages in 10 durum wheat genotypes with different GPC. Although each genotype performed quite differently from the others, both because their genetic variability and their adaptability to specific environmental conditions, the highest GS activity and expression were found in genotypes with HGPC and vice versa the lowest ones in genotypes with low GPC (LGPC). Moreover, in genotypes contrasting in GPC bred at different nitrogen regimes (0, 60, 140 N Unit/ha) GS behaved differently in diverse organs. Nitrogen supplement increased GS expression and activity in roots of all genotypes, highlighting the key role of this enzyme in nitrogen assimilation and ammonium detoxification in roots. Otherwise, nitrogen treatments decreased GS expression and activity in the leaves of HGPC genotypes and did not affect GS in the leaves of LGPC genotypes. Finally, no changes in GS and soluble protein content occurred at the filling stage in the caryopses of all analyzed genotypes.

  12. Glutamine synthetase activity and glutamate uptake in hippocampus and frontal cortex in portal hypertensive rats

    Institute of Scientific and Technical Information of China (English)

    Gabriela Beatriz Acosta; María Alejandra Fernández; Diego Martín Roselló; María Luján Tomaro; Karina Balestrasse; Abraham Lemberg

    2009-01-01

    AIM: To study glutamine synthetase (GS) activity and glutamate uptake in the hippocampus and frontal cortex (FC) from rats with prehepatic portal vein hypertension. METHODS: Male Wistar rats were divided into shamoperated group and a portal hypertension (PH) group with a regulated stricture of the portal vein. Animals were sacrificed by decapitation 14 d after portal vein stricture. GS activity was determined in the hippocampus and FC. Specific uptake of radiolabeled L-glutamate was studied using synaptosome-enriched fractions that were freshly prepared from both brain areas. RESULTS: We observed that the activity of GS increased in the hippocampus of PH rats, as compared to control animals, and decreased in the FC. A significant decrease in glutamate uptake was found in both brain areas, and was more marked in the hippocampus. The decrease in glutamate uptake might have been caused by a deficient transport function, significantly and persistent increase in this excitatory neurotransmitter activity. CONCLUSION: The presence of moderate ammonia blood levels may add to the toxicity of excitotoxic glutamate in the brain, which causes alterations in brain function. Portal vein stricture that causes portal hypertension modifies the normal function in some brain regions.

  13. Dissection of the conduit for allosteric control of carbamoyl phosphate synthetase by ornithine.

    Science.gov (United States)

    Pierrat, Olivier A; Javid-Majd, Farah; Raushel, Frank M

    2002-04-01

    Ornithine is an allosteric activator of carbamoyl phosphate synthetase (CPS) from Escherichia coli. Nine amino acids in the vicinity of the binding sites for ornithine and potassium were mutated to alanine, glutamine, or lysine. The residues E783, T1042, and T1043 were found to be primarily responsible for the binding of ornithine to CPS, while E783 and E892, located within the carbamate domain of the large subunit, were necessary for the transmission of the allosteric signals to the active site. In the K loop for the binding of the monovalent cation potassium, only E761 was crucial for the exhibition of the allosteric effects of ornithine, UMP, and IMP. The mutations H781K and S792K altered significantly the allosteric properties of ornithine, UMP, and IMP, possibly by modifying the conformation of the K-loop structure. Overall, these mutations affected the allosteric properties of ornithine and IMP more than those of UMP. The mutants S792K and D1041A altered the allosteric regulation by ornithine and IMP in a similar way, suggesting common features in the activation mechanism exhibited by these two effectors. PMID:11913967

  14. Genetic identification of essential indels and domains in carbamoyl phosphate synthetase II of Toxoplasma gondii.

    Science.gov (United States)

    Fox, Barbara A; Ristuccia, Jessica G; Bzik, David J

    2009-04-01

    New treatments need to be developed for the significant human diseases of toxoplasmosis and malaria to circumvent problems with current treatments and drug resistance. Apicomplexan parasites causing these lethal diseases are deficient in pyrimidine salvage, suggesting that selective inhibition of de novo pyrimidine biosynthesis can lead to a severe loss of uridine 5'-monophosphate (UMP) and thymidine 5'-monophosphate (dTMP) pools, thereby inhibiting parasite RNA and DNA synthesis. Disruption of Toxoplasma gondii carbamoyl phosphate synthetase II (CPSII) induces a severe uracil auxotrophy with no detectable parasite replication in vitro and complete attenuation of virulence in mice. Here we show that a CPSII cDNA minigene efficiently complements the uracil auxotrophy of CPSII-deficient mutants, restoring parasite growth and virulence. Our complementation assays reveal that engineered mutations within, or proximal to, the catalytic triad of the N-terminal glutamine amidotransferase (GATase) domain inactivate the complementation activity of T. gondii CPSII and demonstrate a critical dependence on the apicomplexan CPSII GATase domain in vivo. Surprisingly, indels present within the T. gondii CPSII GATase domain as well as the C-terminal allosteric regulatory domain are found to be essential. In addition, several mutations directed at residues implicated in allosteric regulation in Escherichia coli CPS either abolish or markedly suppress complementation and further define the functional importance of the allosteric regulatory region. Collectively, these findings identify novel features of T. gondii CPSII as potential parasite-selective targets for drug development. PMID:18992249

  15. Physiological Studies of Glutamine Synthetases I and III from Synechococcus sp. WH7803 Reveal Differential Regulation.

    Science.gov (United States)

    Domínguez-Martín, María Agustina; Díez, Jesús; García-Fernández, José M

    2016-01-01

    The marine picocyanobacterium Synechococcus sp. WH7803 possesses two glutamine synthetases (GSs; EC 6.3.1.2), GSI encoded by glnA and GSIII encoded by glnN. This is the first work addressing the physiological regulation of both enzymes in a marine cyanobacterial strain. The increase of GS activity upon nitrogen starvation was similar to that found in other model cyanobacteria. However, an unusual response was found when cells were grown under darkness: the GS activity was unaffected, reflecting adaptation to the environment where they thrive. On the other hand, we found that GSIII did not respond to nitrogen availability, in sharp contrast with the results observed for this enzyme in other cyanobacteria thus far studied. These features suggest that GS activities in Synechococcus sp. WH7803 represent an intermediate step in the evolution of cyanobacteria, in a process of regulatory streamlining where GSI lost the regulation by light, while GSIII lost its responsiveness to nitrogen. This is in good agreement with the phylogeny of Synechococcus sp. WH7803 in the context of the marine cyanobacterial radiation. PMID:27446010

  16. Cryptosporidium and Toxoplasma Parasites Are Inhibited by a Benzoxaborole Targeting Leucyl-tRNA Synthetase

    Science.gov (United States)

    Liu, Ru-Juan; Lukarska, Maria; Gut, Jiri; Bougdour, Alexandre; Touquet, Bastien; Wang, En-Duo; Li, Xianfeng; Alley, M. R. K.; Freund, Yvonne R.; Rosenthal, Philip J.; Hakimi, Mohamed-Ali

    2016-01-01

    The apicomplexan parasites Cryptosporidium and Toxoplasma are serious threats to human health. Cryptosporidiosis is a severe diarrheal disease in malnourished children and immunocompromised individuals, with the only FDA-approved drug treatment currently being nitazoxanide. The existing therapies for toxoplasmosis, an important pathology in immunocompromised individuals and pregnant women, also have serious limitations. With the aim of developing alternative therapeutic options to address these health problems, we tested a number of benzoxaboroles, boron-containing compounds shown to be active against various infectious agents, for inhibition of the growth of Cryptosporidium parasites in mammalian cells. A 3-aminomethyl benzoxaborole, AN6426, with activity in the micromolar range and with activity comparable to that of nitazoxanide, was identified and further characterized using biophysical measurements of affinity and crystal structures of complexes with the editing domain of Cryptosporidium leucyl-tRNA synthetase (LeuRS). The same compound was shown to be active against Toxoplasma parasites, with the activity being enhanced in the presence of norvaline, an amino acid that can be mischarged by LeuRS. Our observations are consistent with AN6426 inhibiting protein synthesis in both Cryptosporidium and Toxoplasma by forming a covalent adduct with tRNALeu in the LeuRS editing active site and suggest that further exploitation of the benzoxaborole scaffold is a valid strategy to develop novel, much needed antiparasitic agents. PMID:27431220

  17. Crystallization and preliminary X-ray diffraction study of phosphoribosyl pyrophosphate synthetase from E. Coli

    Science.gov (United States)

    Timofeev, V. I.; Abramchik, Yu. A.; Zhukhlistova, N. E.; Kuranova, I. P.

    2015-09-01

    Enzymes of the phosphoribosyl pyrophosphate synthetase family (PRPPS, EC 2.7.6.1) catalyze the formation of 5-phosphoribosyl pyrophosphate (5-PRPP) from adenosine triphosphate and ribose 5-phosphate. 5-Phosphoribosyl pyrophosphate is an important intermediate in the synthesis of purine, pyrimidine, and pyridine nucleotides, as well as of the amino acids histidine and tryptophan. The crystallization conditions for E. coli PRPPS were found by the vapor-diffusion technique and were optimized to apply the capillary counter-diffusion technique. The X-ray diffraction data set was collected from the crystals grown by the counter-diffusion technique using a synchrotron radiation source to 3.1-Å resolution. The crystals of PRPPS belong to sp. gr. P6322 and have the following unit-cell parameters: a = b = 104.44 Å, c = 124.98 Å, α = β = 90°, γ = 120°. The collected X-ray diffraction data set is suitable for the solution of the three-dimensional structure of PRPPS at 3.1-Å resolution.

  18. Structural characterization of Helicobacter pylori dethiobiotin synthetase reveals differences between family members

    Energy Technology Data Exchange (ETDEWEB)

    Porebski, Przemyslaw J.; Klimecka, Maria; Chruszcz, Maksymilian; Nicholls, Robert A.; Murzyn, Krzysztof; Cuff, Marianne E.; Xu, Xiaohui; Cymborowski, Marcin; Murshudov, Garib N.; Savchenko, Alexei; Edwards, Aled; Minor, Wladek (MCSG); (UV); (MRC)

    2012-07-11

    Dethiobiotin synthetase (DTBS) is involved in the biosynthesis of biotin in bacteria, fungi, and plants. As humans lack this pathway, DTBS is a promising antimicrobial drug target. We determined structures of DTBS from Helicobacter pylori (hpDTBS) bound with cofactors and a substrate analog, and described its unique characteristics relative to other DTBS proteins. Comparison with bacterial DTBS orthologs revealed considerable structural differences in nucleotide recognition. The C-terminal region of DTBS proteins, which contains two nucleotide-recognition motifs, differs greatly among DTBS proteins from different species. The structure of hpDTBS revealed that this protein is unique and does not contain a C-terminal region containing one of the motifs. The single nucleotide-binding motif in hpDTBS is similar to its counterpart in GTPases; however, isothermal titration calorimetry binding studies showed that hpDTBS has a strong preference for ATP. The structural determinants of ATP specificity were assessed with X-ray crystallographic studies of hpDTBS-ATP and hpDTBS-GTP complexes. The unique mode of nucleotide recognition in hpDTBS makes this protein a good target for H. pylori-specific inhibitors of the biotin synthesis pathway.

  19. Regulation of Glutamate Dehydrogenase and Glutamine Synthetase in Avocado Fruit during Development and Ripening.

    Science.gov (United States)

    Loulakakis, K. A.; Roubelakis-Angelakis, K. A.; Kanellis, A. K.

    1994-09-01

    The activity, protein, and isoenzymic profiles of glutamate de-hydrogenase (GDH) and glutamine synthetase (GS) were studied during development and ripening of avocado (Percea americana Mill. cv Hass) fruit. During fruit development, the activity and protein content of both GDH and GS remained relatively constant. In contrast, considerable changes in these enzymes were observed during ripening of avocado fruit. The specific activity of GDH increased about 4-fold, coincident with a similar increase in GDH protein content and mRNA levels. On the other hand, GS specific activity showed a decline at the end of the ripening process. On the isoenzymic profile of GDH, changes in the prevalence of the seven isoenzymes were found, with a predominance of the more cathodal isoenzymes in the unripe and of the most anodal isoenzymes in the ripe fruit. Two-dimensional electrophoresis revealed that avocado fruit GDH consists of two subunits whose association gives rise to seven isoenzymes. The results support the view that the predominance of the more anodal isoenzymes in the overripe fruit was due to the accumulation of the [alpha]-polypeptide.

  20. DIFFERENTIAL EXPRESSION OF GENES INVOLVED IN METABOLISM BETWEEN TUMORIGENITIC HUMAN LEUKEMIA CELL LINES K562 AND K562-n

    Institute of Scientific and Technical Information of China (English)

    吕书晴; 许小平; 夏放; 居小萍; 李瑶; 应康; 毛裕民

    2003-01-01

    Objective: To study the molecular mechanism of different tumorigenicity in nude mice of human leukemia cell lines K562-n and K562. Methods: To analyze the genes differently expressed between K562 and K562-n cells by using cDNA microarray technique. Results: Among the 12800 genes detected, some genes involved in material metabolism and material transport were differently expressed between K562-n and K562 cells. These genes include homo sapiens placenta-specific ATP-binding cassette transporter gene, dihydrodiol dehydrogenase gene, hepatic dihydrodiol dehydrogenase gene, NAD-dependent methylene tetrahydrofolate dehydrogenase cyclohydrolase, lysophosphatidic acid acyltransferase, alpha gene, argininosuccinate lyase gene, mitochondrial isocitrtate dehydrogenase, adhesion protein SQM1 gene, dimethylarginine dimethylamino-hydrolase gene, M1 subunit of ribonucleotide reductase and farnesyl pyrophosphate synthetase gene. Conclusion: The high tumorigenicity of K562-n cells is related to the different expression of some genes concerned with cell metabolism and material transpoert.

  1. Relationship between folypolyglutamate synthetase and methotrexate drug sensitivity%叶酰多聚谷氨酸合成酶与甲氨蝶呤敏感性的关系

    Institute of Scientific and Technical Information of China (English)

    胡椿艳

    2012-01-01

    Folypolyglutamate synthetase(FPGS) catalyzes the addition of multiple glutamate molecules to compounds with the basic pteroylglutamate structure,such as polyglutamylation-dependent novel antifolates.As the antifolates like methotrexate require polyglutamation by FPGS for activation,FPGS has an established position in the cytotoxic action of methotrexate and has become a essential part in methotrexate resistance.Recent studies have indicated that decreased mRNA expression and activity of FPGS can cause reduction of methotrexate-polyglutamates accumulation,which have been observed as a dominant mechanism leading to methotrexate resistance.Furthermore,single nucleotide polymorphism in FPGS has been displayed significant associations with methotrexate sensitivity and susceptibility of deseases,though the detail mechanism is unknown.This paper is to review the relationship among FPGS enzyme activity,gene polymorphism and methotrexate drug sensitivity.%叶酰多聚谷氨酸合成酶( folypolyglutamate synthetase,FPGS)作为甲氨蝶呤(methotrexate,MTX)类抗肿瘤药物细胞内代谢过程中的关键酶,催化形成活性形式的MTX多聚谷氨酸,其异常是MTX耐药的重要原因之一.近年来研究发现,FPGS表达及活性的降低可使细胞内MTX多聚谷氨酸浓度降低,从而导致MTX耐药.FPGS基因多态性在MTX耐药中也起着重要的作用,但其具体机制尚未完全明了.该文就FPGS酶活性及基因多态性与MTX药物敏感性的关系进行综述.

  2. Interstitial lung disease in anti-synthetase syndrome: Initial and follow-up CT findings

    Energy Technology Data Exchange (ETDEWEB)

    Debray, Marie-Pierre, E-mail: marie-pierre.debray@bch.aphp.fr [AP-HP, Bichat-Claude Bernard Hospital, Department of Radiology, 46, rue Henri Huchard, 75877 Paris Cedex 18 (France); Borie, Raphael, E-mail: raphael.borie@bch.aphp.fr [AP-HP, Bichat-Claude Bernard Hospital, Department of Pneumology A and Centre de Compétence Maladies Pulmonaires rares, DHU Fire 46, rue Henri Huchard, 75877 Paris Cedex 18 (France); Inserm, U1152, Paris (France); Revel, Marie-Pierre, E-mail: marie-pierre.revel@htd.aphp.fr [AP-HP, Cochin Hospital, Department of Radiology, 27, Rue du Fg Saint Jacques, 75679 Paris Cedex 14 (France); Naccache, Jean-Marc, E-mail: jean-marc.naccache@tnn.aphp.fr [AP-HP, Avicenne Hospital, Department of Pneumology and Centre de Compétence Maladies Pulmonaires rares, Bobigny (France); AP-HP, Tenon Hospital, Department of Pneumology and Centre de Compétence Maladies Pulmonaires rares, 4, rue de la Chine, 75020 Paris (France); Khalil, Antoine, E-mail: antoine.khalil@tnn.aphp.fr [AP-HP, Tenon Hospital, Department of Radiology, 4, rue de la Chine, 75020 Paris (France); Toper, Cécile, E-mail: cecile.toper@gmail.com [AP-HP, Tenon Hospital, Department of Pneumology and Centre de Compétence Maladies Pulmonaires rares, 4, rue de la Chine, 75020 Paris (France); Israel-Biet, Dominique, E-mail: dominique.israel-biet@egp.aphp.fr [Université Paris Descartes and AP-HP, Department of Pneumology, Georges Pompidou European Hospital, 20, rue Leblanc, 75015 Paris (France); and others

    2015-03-15

    Purpose: To describe the initial and follow-up CT features of interstitial lung disease associated with anti-synthetase syndrome (AS-ILD). Materials and methods: Two independent thoracic radiologists retrospectively analysed thin-section CT images obtained at diagnosis of AS-ILD in 33 patients (17 positive for anti-Jo1, 13 for anti-PL12, and three for anti-PL7 antibodies). They evaluated the pattern, distribution and extent of the CT abnormalities. They also evaluated the change in findings during follow-up (median 27 months; range 13–167 months) in 26 patients. Results: At diagnosis, ground-glass opacities (100%), reticulations (87%) and traction bronchiectasis (76%) were the most common CT findings. Consolidations were present in 45% of patients. A non-specific interstitial pneumonia (NSIP), organizing pneumonia (OP) or mixed NSIP-OP CT pattern were observed in 15 out of 33 (45%), seven out of 33 (21%) and eight out of 33 (24%) patients, respectively, whereas the CT pattern was indeterminate in three patients. During follow-up, consolidations decreased or disappeared in 11 out of 12 patients (92%), among which seven within the first 6 months, but honeycombing progressed or appeared in ten out of 26 patients (38%) and overall disease extent increased in nine out of 26 patients (35%). Conclusion: CT features at diagnosis of AS-ILD mainly suggest NSIP and OP, isolated or in combination. Consolidations decrease or disappear in most cases but the disease may progress to fibrosis in more than one third of patients.

  3. Structural Insights into the Catalytic Mechanism of Escherichia coli Selenophosphate Synthetase

    Energy Technology Data Exchange (ETDEWEB)

    Noinaj, Nicholas; Wattanasak, Rut; Lee, Duck-Yeon; Wally, Jeremy L.; Piszczek, Grzegorz; Chock, P. Boon; Stadtman, Thressa C.; Buchanan, Susan K. (NIH)

    2012-03-26

    Selenophosphate synthetase (SPS) catalyzes the synthesis of selenophosphate, the selenium donor for the biosynthesis of selenocysteine and 2-selenouridine residues in seleno-tRNA. Selenocysteine, known as the 21st amino acid, is then incorporated into proteins during translation to form selenoproteins which serve a variety of cellular processes. SPS activity is dependent on both Mg{sup 2+} and K{sup +} and uses ATP, selenide, and water to catalyze the formation of AMP, orthophosphate, and selenophosphate. In this reaction, the gamma phosphate of ATP is transferred to the selenide to form selenophosphate, while ADP is hydrolyzed to form orthophosphate and AMP. Most of what is known about the function of SPS has derived from studies investigating Escherichia coli SPS (EcSPS) as a model system. Here we report the crystal structure of the C17S mutant of SPS from E. coli (EcSPS{sup C17S}) in apo form (without ATP bound). EcSPS{sup C17S} crystallizes as a homodimer, which was further characterized by analytical ultracentrifugation experiments. The glycine-rich N-terminal region (residues 1 through 47) was found in the open conformation and was mostly ordered in both structures, with a magnesium cofactor bound at the active site of each monomer involving conserved aspartate residues. Mutating these conserved residues (D51, D68, D91, and D227) along with N87, also found at the active site, to alanine completely abolished AMP production in our activity assays, highlighting their essential role for catalysis in EcSPS. Based on the structural and biochemical analysis of EcSPS reported here and using information obtained from similar studies done with SPS orthologs from Aquifex aeolicus and humans, we propose a catalytic mechanism for EcSPS-mediated selenophosphate synthesis.

  4. Argininosuccinate Synthetase Is a Functional Target for a Snake Venom Anti-hypertensive Peptide

    Science.gov (United States)

    Guerreiro, Juliano R.; Lameu, Claudiana; Oliveira, Eduardo F.; Klitzke, Clécio F.; Melo, Robson L.; Linares, Edlaine; Augusto, Ohara; Fox, Jay W.; Lebrun, Ivo; Serrano, Solange M. T.; Camargo, Antonio C. M.

    2009-01-01

    Bj-BPP-10c is a bioactive proline-rich decapeptide, part of the C-type natriuretic peptide precursor, expressed in the brain and in the venom gland of Bothrops jararaca. We recently showed that Bj-BPP-10c displays a strong, sustained anti-hypertensive effect in spontaneous hypertensive rats (SHR), without causing any effect in normotensive rats, by a pharmacological effect independent of angiotensin-converting enzyme inhibition. Therefore, we hypothesized that another mechanism should be involved in the peptide activity. Here we used affinity chromatography to search for kidney cytosolic proteins with affinity for Bj-BPP-10c and demonstrate that argininosuccinate synthetase (AsS) is the major protein binding to the peptide. More importantly, this interaction activates the catalytic activity of AsS in a dose-de pend ent manner. AsS is recognized as an important player of the citrulline-NO cycle that represents a potential limiting step in NO synthesis. Accordingly, the functional interaction of Bj-BPP-10c and AsS was evidenced by the following effects promoted by the peptide: (i) increase of NO metabolite production in human umbilical vein endothelial cell culture and of arginine in human embryonic kidney cells and (ii) increase of arginine plasma concentration in SHR. Moreover, α-methyl-dl-aspartic acid, a specific AsS inhibitor, significantly reduced the anti-hypertensive activity of Bj-BPP-10c in SHR. Taken together, these results suggest that AsS plays a role in the anti-hypertensive action of Bj-BPP-10c. Therefore, we propose the activation of AsS as a new mechanism for the anti-hypertensive effect of Bj-BPP-10c in SHR and AsS as a novel target for the therapy of hypertension-related diseases. PMID:19491403

  5. Poly(Adp-ribose) synthetase inhibition prevents lipopolysaccharide-induced peroxynitrite mediated damage in diaphragm.

    Science.gov (United States)

    Ozdülger, Ali; Cinel, Ismail; Unlü, Ali; Cinel, Leyla; Mavioglu, Ilhan; Tamer, Lülüfer; Atik, Ugur; Oral, Ugur

    2002-07-01

    Although the precise mechanism by which sepsis causes impairment of respiratory muscle contractility has not been fully elucidated, oxygen-derived free radicals are thought to play an important role. In our experimental study, the effects of poly(ADP-ribose) synthetase (PARS) inhibition on the diaphragmatic Ca(2+)-ATPase, malondialdehyde (MDA), and 3-nitrotyrosine (3-NT) levels and additionally histopathology of the diaphragm in lipopolysaccharide (LPS)-induced endotoxemia are investigated.Thirty-two male Wistar rats, weighing between 180-200 g were randomly divided into four groups. The first group (control; n=8) received saline solution and the second (LPS group; n=8) 10 mgkg(-1) LPS i.p. 3-Aminobenzamide (3-AB) as a PARS inhibitor; was given to the third group (C+3-AB, n=8) 20 min before administration of saline solution while the fourth group (LPS+3-AB, n=8) received 3-AB 20 min before LPS injection. Six hours later, under ketamin/xylasine anesthesia diapraghmatic specimens were obtained and the rats were decapitated. Diaphragmatic specimens were divided into four parts, three for biochemical analyses and one for histopathologic assessment. In the LPS group, tissue Ca(2+)-ATPase levels were found to be decreased and tissue MDA and 3-NT levels were found to be increased (P<0.05). In the LPS+3-AB group, 3-AB pretreatment inhibited the increase in MDA and 3-NT levels and Ca(2+)-ATPase activity remained similar to those in the control group (P<0.05). Histopathologic examination of diaphragm showed edema between muscle fibers only in LPS group. PARS inhibition with 3-AB prevented not only lipid peroxidation but also the decrease of Ca(2+)-ATPase activity in endotoxemia. These results highlights the importance of nitric oxide (NO)-peroxynitrite (ONOO(-))-PARS pathway in preventing free radical mediated injury. PARS inhibitors should further be investigated as a new thearapetic alternative in sepsis treatment.

  6. Selenophosphate Synthetase 1 is an Essential Protein with Roles in Regulation of Redox Homeostasis in Mammals

    Science.gov (United States)

    Tobe, Ryuta; Carlson, Bradley A.; Huh, Jang Hoe; Castro, Nadia P.; Xu, Xue-Ming; Tsuji, Petra A.; Lee, Sang-Goo; Bang, Jeyoung; Na, Ji-Woon; Kong, Young-Yun; Beaglehole, Daniel; Southon, Eileen; Seifried, Harold; Tessarollo, Lino; Salomon, David S.; Schweizer, Ulrich; Gladyshev, Vadim N.; Hatfield, Dolph L.; Lee, Byeong Jae

    2016-01-01

    Selenophosphate synthetase (SPS) was initially detected in bacteria and was shown to synthesize selenophosphate, the active selenium donor. However, mammals have two SPS paralogs, which are designated SPS1 and SPS2. Although it is known that SPS2 catalyzes the synthesis of selenophosphate, the function of SPS1 remains largely unclear. To examine the role of SPS1 in mammals, we generated a Sps1 knockout mouse and found that systemic SPS1 deficiency led to embryos that were clearly underdeveloped by E8.5 and virtually resorbed by E14.5. The knockout of Sps1 in the liver preserved viability, but significantly affected the expression of a large number of mRNAs involved in cancer, embryonic development, and the glutathione system. Particularly notable was the extreme deficiency of glutaredoxin 1 (GLRX1) and glutathione-S-transferase omega 1. To assess these phenotypes at the cellular level, we targeted the removal of SPS1 in F9 cells, a mouse embryonal carcinoma cell line, which affected the glutathione system proteins and accordingly led to the accumulation of hydrogen peroxide in the cell. Further, we found that several malignant characteristics of SPS1-deficient F9 cells were reversed, suggesting that SPS1 played a role in supporting and/or sustaining cancer. In addition, the overexpression of mouse or human GLRX1 led to a reversal of observed increases in reactive oxygen species (ROS) in the F9 SPS1/GLRX1-deficient cells and resulted in levels that were similar to those in F9 SPS1-sufficient cells. The results suggested that SPS1 is an essential mammalian enzyme with roles in regulating redox homeostasis and controlling cell growth. PMID:27208177

  7. Identification of Novel Chemical Scaffolds Inhibiting Trypanothione Synthetase from Pathogenic Trypanosomatids.

    Directory of Open Access Journals (Sweden)

    Diego Benítez

    2016-04-01

    Full Text Available The search for novel chemical entities targeting essential and parasite-specific pathways is considered a priority for neglected diseases such as trypanosomiasis and leishmaniasis. The thiol-dependent redox metabolism of trypanosomatids relies on bis-glutathionylspermidine [trypanothione, T(SH2], a low molecular mass cosubstrate absent in the host. In pathogenic trypanosomatids, a single enzyme, trypanothione synthetase (TryS, catalyzes trypanothione biosynthesis, which is indispensable for parasite survival. Thus, TryS qualifies as an attractive drug target candidate.A library composed of 144 compounds from 7 different families and several singletons was screened against TryS from three major pathogen species (Trypanosoma brucei, Trypanosoma cruzi and Leishmania infantum. The screening conditions were adjusted to the TryS´ kinetic parameters and intracellular concentration of substrates corresponding to each trypanosomatid species, and/or to avoid assay interference. The screening assay yielded suitable Z' and signal to noise values (≥0.85 and ~3.5, respectively, and high intra-assay reproducibility. Several novel chemical scaffolds were identified as low μM and selective tri-tryp TryS inhibitors. Compounds displaying multi-TryS inhibition (N,N'-bis(3,4-substituted-benzyl diamine derivatives and an N5-substituted paullone (MOL2008 halted the proliferation of infective Trypanosoma brucei (EC50 in the nM range and Leishmania infantum promastigotes (EC50 = 12 μM, respectively. A bis-benzyl diamine derivative and MOL2008 depleted intracellular trypanothione in treated parasites, which confirmed the on-target activity of these compounds.Novel molecular scaffolds with on-target mode of action were identified as hit candidates for TryS inhibition. Due to the remarkable species-specificity exhibited by tri-tryp TryS towards the compounds, future optimization and screening campaigns should aim at designing and detecting, respectively, more potent

  8. Mycobacterium tuberculosis phosphoribosylpyrophosphate synthetase: biochemical features of a crucial enzyme for mycobacterial cell wall biosynthesis.

    Directory of Open Access Journals (Sweden)

    Anna P Lucarelli

    Full Text Available The selection and soaring spread of Mycobacterium tuberculosis multidrug-resistant (MDR-TB and extensively drug-resistant strains (XDR-TB is a severe public health problem. Currently, there is an urgent need for new drugs for tuberculosis treatment, with novel mechanisms of action and, moreover, the necessity to identify new drug targets. Mycobacterial phosphoribosylpyrophosphate synthetase (MtbPRPPase is a crucial enzyme involved in the biosynthesis of decaprenylphosphoryl-arabinose, an essential precursor for the mycobacterial cell wall biosynthesis. Moreover, phosphoribosylpyrophosphate, which is the product of the PRPPase catalyzed reaction, is the precursor for the biosynthesis of nucleotides and of some amino acids such as histidine and tryptophan. In this context, the elucidation of the molecular and functional features of MtbPRPPase is mandatory. MtbPRPPase was obtained as a recombinant form, purified to homogeneity and characterized. According to its hexameric form, substrate specificity and requirement of phosphate for activity, the enzyme proved to belong to the class I of PRPPases. Although the sulfate mimicked the phosphate, it was less effective and required higher concentrations for the enzyme activation. MtbPRPPase showed hyperbolic response to ribose 5-phosphate, but sigmoidal behaviour towards Mg-ATP. The enzyme resulted to be allosterically activated by Mg(2+ or Mn(2+ and inhibited by Ca(2+ and Cu(2+ but, differently from other characterized PRPPases, it showed a better affinity for the Mn(2+ and Cu(2+ ions, indicating a different cation binding site geometry. Moreover, the enzyme from M. tuberculosis was allosterically inhibited by ADP, but less sensitive to inhibition by GDP. The characterization of M. tuberculosis PRPPase provides the starting point for the development of inhibitors for antitubercular drug design.

  9. Ammonia metabolism capacity of HepG2 cells with high expression of human glutamine synthetase

    Institute of Scientific and Technical Information of China (English)

    Nan-Hong Tang; Xiao-Qian Wang; Xiu-Jin Li; Yan-Ling Chen

    2008-01-01

    BACKGROUND:Currently, one of the tough problems for the application of bioartiifcial liver (BAL) is the shortage of suitable hepatocytes. There are reports on different types of BAL assistance developed with porcine hepatocytes and HepG2 C3A cells, but their defects are obvious. In recent years, some studies focus more on liver cells with features of human origin and improved detoxiifcation. In this study, a hepatocyte line with high expression of human glutamine synthetase (hGS) was raised and its capacity for ammonia metabolism was investigated. METHODS:hGS cDNA and alpha-fetoprotein transcription regulatory element (AFP-TRE) were cloned with the designed primers. The eukaryotic expression vectors, pLNChGS and pLNAFhGS, were constructed and transfected into PA317 cells. Recombinant retroviruses (Retro-hGS and Retro-AFhGS) were produced and then infected into HepG2 cells. G418-resistant cell clones, HepG2/pLNChGS and HepG2/pLNAFhGS, were selected and ampliifed. Then hGS mRNA was measured by semi-quantitative RT-PCR;hGS enzymatic activity and ammonia metabolism analysis in different concentration of NH4+were detected with a quantitative biochemistry kit. The cell proliferation was also detected by MTT chromatometry. RESULTS:The expression of hGS mRNA in HepG2/pLNChGS cells (8.306±0.336) and HepG2/pLNAFhGS cells (21.358±1.716) was much stronger than in control cells (P CONCLUSION:The constructed hepatocytes (HepG2 cells) with speciifc high-expression of hGS have a powerful ability to degrade ammonia in vitro, and provide necessary experimental data for the selection of biomaterials in BAL.

  10. New isoforms and assembly of glutamine synthetase in the leaf of wheat (Triticum aestivum L.).

    Science.gov (United States)

    Wang, Xiaochun; Wei, Yihao; Shi, Lanxin; Ma, Xinming; Theg, Steven M

    2015-11-01

    Glutamine synthetase (GS; EC 6.3.1.2) plays a crucial role in the assimilation and re-assimilation of ammonia derived from a wide variety of metabolic processes during plant growth and development. Here, three developmentally regulated isoforms of GS holoenzyme in the leaf of wheat (Triticum aestivum L.) seedlings are described using native-PAGE with a transferase activity assay. The isoforms showed different mobilities in gels, with GSII>GSIII>GSI. The cytosolic GSI was composed of three subunits, GS1, GSr1, and GSr2, with the same molecular weight (39.2kDa), but different pI values. GSI appeared at leaf emergence and was active throughout the leaf lifespan. GSII and GSIII, both located in the chloroplast, were each composed of a single 42.1kDa subunit with different pI values. GSII was active mainly in green leaves, while GSIII showed brief but higher activity in green leaves grown under field conditions. LC-MS/MS experiments revealed that GSII and GSIII have the same amino acid sequence, but GSII has more modification sites. With a modified blue native electrophoresis (BNE) technique and in-gel catalytic activity analysis, only two GS isoforms were observed: one cytosolic and one chloroplastic. Mass calibrations on BNE gels showed that the cytosolic GS1 holoenzyme was ~490kDa and likely a dodecamer, and the chloroplastic GS2 holoenzyme was ~240kDa and likely a hexamer. Our experimental data suggest that the activity of GS isoforms in wheat is regulated by subcellular localization, assembly, and modification to achieve their roles during plant development.

  11. Metabolic indicators of drought stress tolerance in wheat: glutamine synthetase isoenzymes and Rubisco.

    Science.gov (United States)

    Nagy, Zoltán; Németh, Edit; Guóth, Adrienn; Bona, Lajos; Wodala, Barnabás; Pécsváradi, Attila

    2013-06-01

    Drought stress has a considerable impact on the ecosystem and agriculture. Continuous water deficit induces early leaf senescence in plants. During this process, chloroplasts are degraded and photosynthesis drastically drops. The objective of this investigation was to look into the regulation of nitrogen and carbon metabolism during water deficit. Rubisco (ribulose-1,5-bisphosphate carboxylase/oxygenase; EC 4.1.1.39) and the total protein contents inform us of the sink-source relation in plants. Glutamine synthetase (GS, EC 6.3.1.2) isoenzymes are good markers of plastid status (GS2) and the nitrogen metabolism (GS1). Tolerant and sensitive wheat (Triticum aestivum L.) genotypes were tested, which are widely used in agriculture. The amount of protein, Rubisco and GS isoforms in leaves were measured during the grain filling period, as indicative traits that ultimately determine the onset and stage of senescence. The symptoms of senescence first appeared on the oldest and finally on the youngest leaves. Drought stress disrupted the sequentiality of senescence in the sensitive varieties. An untimely senescence appeared in flag leaves, earlier than in the older leaves. Total protein and Rubisco contents decreased and the GS2 isoenzyme declined considerably in the youngest leaves. In the tolerant varieties, however, these physiological parameters did not change under drought, only the sequential senescence of leaf levels accelerated in some cases compared to the control, well-watered plants. Our results revealed that GS is a good indicator of drought stress, which can be applied for the characterization of wheat cultivars in terms of drought stress tolerance.

  12. The Molecular Basis of TnrA Control by Glutamine Synthetase in Bacillus subtilis.

    Science.gov (United States)

    Hauf, Ksenia; Kayumov, Airat; Gloge, Felix; Forchhammer, Karl

    2016-02-12

    TnrA is a master regulator of nitrogen assimilation in Bacillus subtilis. This study focuses on the mechanism of how glutamine synthetase (GS) inhibits TnrA function in response to key metabolites ATP, AMP, glutamine, and glutamate. We suggest a model of two mutually exclusive GS conformations governing the interaction with TnrA. In the ATP-bound state (A-state), GS is catalytically active but unable to interact with TnrA. This conformation was stabilized by phosphorylated L-methionine sulfoximine (MSX), fixing the enzyme in the transition state. When occupied by glutamine (or its analogue MSX), GS resides in a conformation that has high affinity for TnrA (Q-state). The A- and Q-state are mutually exclusive, and in agreement, ATP and glutamine bind to GS in a competitive manner. At elevated concentrations of glutamine, ATP is no longer able to bind GS and to bring it into the A-state. AMP efficiently competes with ATP and prevents formation of the A-state, thereby favoring GS-TnrA interaction. Surface plasmon resonance analysis shows that TnrA bound to a positively regulated promoter fragment binds GS in the Q-state, whereas it rapidly dissociates from a negatively regulated promoter fragment. These data imply that GS controls TnrA activity at positively controlled promoters by shielding the transcription factor in the DNA-bound state. According to size exclusion and multiangle light scattering analysis, the dodecameric GS can bind three TnrA dimers. The highly interdependent ligand binding properties of GS reveal this enzyme as a sophisticated sensor of the nitrogen and energy state of the cell to control the activity of DNA-bound TnrA.

  13. Resveratrol Prevents Retinal Dysfunction by Regulating Glutamate Transporters, Glutamine Synthetase Expression and Activity in Diabetic Retina.

    Science.gov (United States)

    Zeng, Kaihong; Yang, Na; Wang, Duozi; Li, Suping; Ming, Jian; Wang, Jing; Yu, Xuemei; Song, Yi; Zhou, Xue; Yang, Yongtao

    2016-05-01

    This study investigated the effects of resveratrol (RSV) on retinal functions, glutamate transporters (GLAST) and glutamine synthetase (GS) expression in diabetic rats retina, and on glutamate uptake, GS activity, GLAST and GS expression in high glucose-cultured Müller cells. The electroretinogram was used to evaluate retinal functions. Müller cells cultures were prepared from 5- to 7-day-old Sprague-Dawley rats. The expression of GLAST and GS was examined by qRT-PCR, ELISA and western-blotting. Glutamate uptake was measured as (3)H-glutamate contents of the lysates. GS activity was assessed by a spectrophotometric assay. 1- to 7-month RSV administrations (5 and 10 mg/kg/day) significantly alleviated hyperglycemia and weight loss in diabetic rats. RSV administrations also significantly attenuated diabetes-induced decreases in amplitude of a-wave in rod response, decreases in amplitude of a-, and b-wave in cone and rod response and decreases in amplitude of OP2 in oscillatory potentials. 1- to 7-month RSV treatments also significantly inhibited diabetes-induced delay in OP2 implicit times in scotopic 3.0 OPS test. The down-regulated mRNA and protein expression of GLAST and GS in diabetic rats retina was prevented by RSV administrations. In high glucose-treated cultures, Müller cells' glutamate uptake, GS activity, GLAST and GS expression were decreased significantly compared with normal control cultures. RSV (10, 20, and 30 mmol/l) significantly inhibited the HG-induced decreases in glutamate uptake, GS activity, GLAST and GS expression (at least P < 0.05). These beneficial results suggest that RSV may be considered as a therapeutic option to prevent from diabetic retinopathy.

  14. Molecular Mechanisms of Glutamine Synthetase Mutations that Lead to Clinically Relevant Pathologies.

    Science.gov (United States)

    Frieg, Benedikt; Görg, Boris; Homeyer, Nadine; Keitel, Verena; Häussinger, Dieter; Gohlke, Holger

    2016-02-01

    Glutamine synthetase (GS) catalyzes ATP-dependent ligation of ammonia and glutamate to glutamine. Two mutations of human GS (R324C and R341C) were connected to congenital glutamine deficiency with severe brain malformations resulting in neonatal death. Another GS mutation (R324S) was identified in a neurologically compromised patient. However, the molecular mechanisms underlying the impairment of GS activity by these mutations have remained elusive. Molecular dynamics simulations, free energy calculations, and rigidity analyses suggest that all three mutations influence the first step of GS catalytic cycle. The R324S and R324C mutations deteriorate GS catalytic activity due to loss of direct interactions with ATP. As to R324S, indirect, water-mediated interactions reduce this effect, which may explain the suggested higher GS residual activity. The R341C mutation weakens ATP binding by destabilizing the interacting residue R340 in the apo state of GS. Additionally, the mutation is predicted to result in a significant destabilization of helix H8, which should negatively affect glutamate binding. This prediction was tested in HEK293 cells overexpressing GS by dot-blot analysis: Structural stability of H8 was impaired through mutation of amino acids interacting with R341, as indicated by a loss of masking of an epitope in the glutamate binding pocket for a monoclonal anti-GS antibody by L-methionine-S-sulfoximine; in contrast, cells transfected with wild type GS showed the masking. Our analyses reveal complex molecular effects underlying impaired GS catalytic activity in three clinically relevant mutants. Our findings could stimulate the development of ATP binding-enhancing molecules by which the R324S mutant can be repaired extrinsically.

  15. Molecular Mechanisms of Glutamine Synthetase Mutations that Lead to Clinically Relevant Pathologies.

    Directory of Open Access Journals (Sweden)

    Benedikt Frieg

    2016-02-01

    Full Text Available Glutamine synthetase (GS catalyzes ATP-dependent ligation of ammonia and glutamate to glutamine. Two mutations of human GS (R324C and R341C were connected to congenital glutamine deficiency with severe brain malformations resulting in neonatal death. Another GS mutation (R324S was identified in a neurologically compromised patient. However, the molecular mechanisms underlying the impairment of GS activity by these mutations have remained elusive. Molecular dynamics simulations, free energy calculations, and rigidity analyses suggest that all three mutations influence the first step of GS catalytic cycle. The R324S and R324C mutations deteriorate GS catalytic activity due to loss of direct interactions with ATP. As to R324S, indirect, water-mediated interactions reduce this effect, which may explain the suggested higher GS residual activity. The R341C mutation weakens ATP binding by destabilizing the interacting residue R340 in the apo state of GS. Additionally, the mutation is predicted to result in a significant destabilization of helix H8, which should negatively affect glutamate binding. This prediction was tested in HEK293 cells overexpressing GS by dot-blot analysis: Structural stability of H8 was impaired through mutation of amino acids interacting with R341, as indicated by a loss of masking of an epitope in the glutamate binding pocket for a monoclonal anti-GS antibody by L-methionine-S-sulfoximine; in contrast, cells transfected with wild type GS showed the masking. Our analyses reveal complex molecular effects underlying impaired GS catalytic activity in three clinically relevant mutants. Our findings could stimulate the development of ATP binding-enhancing molecules by which the R324S mutant can be repaired extrinsically.

  16. Persistent reduction of hippocampal glutamine synthetase expression after status epilepticus in immature rats.

    Science.gov (United States)

    van der Hel, W Saskia; Hessel, Ellen V S; Bos, Ineke W M; Mulder, Sandra D; Verlinde, Suzanne A M W; van Eijsden, Pieter; de Graan, Pierre N E

    2014-12-01

    Mesiotemporal sclerosis (MTS), the most frequent form of drug-resistant temporal lobe epilepsy, often develops after an initial precipitating injury affecting the immature brain. To analyse early processes in epileptogenesis we used the juvenile pilocarpine model to study status epilepticus (SE)-induced changes in expression of key components in the glutamate-glutamine cycle, known to be affected in MTS patients. SE was induced by Li(+) /pilocarpine injection in 21-day-old rats. At 2-19 weeks after SE hippocampal protein expression was analysed by immunohistochemistry and neuron damage by FluoroJade staining. Spontaneous seizures occurred in at least 44% of animals 15-18 weeks after SE. As expected in this model, we did not observe loss of principal hippocampal neurons. Neuron damage was most pronounced in the hilus, where we also detected progressive loss of parvalbumin-positive GABAergic interneurons. Hilar neuron loss (or end-folium sclerosis), a common feature in patients with MTS, was accompanied by a progressively decreased glutamine synthetase (GS)-immunoreactivity from 2 (-15%) to 19 weeks (-33.5%) after SE. Immunoreactivity for excitatory amino-acid transporters, vesicular glutamate transporter 1 and glial fibrillary acidic protein was unaffected. Our data show that SE elicited in 21-day-old rats induces a progressive reduction in hilar GS expression without affecting other key components of the glutamate-glutamine cycle. Reduced expression of glial enzyme GS was first detected 2 weeks after SE, and thus clearly before spontaneous recurrent seizures occurred. These results support the hypothesis that reduced GS expression is an early event in the development of hippocampal sclerosis in MTS patients and emphasize the importance of astrocytes in early epileptogenesis.

  17. A genomic glimpse of aminoacyl-tRNA synthetases in malaria parasite Plasmodium falciparum

    Directory of Open Access Journals (Sweden)

    Santoni Daniele

    2009-12-01

    Full Text Available Abstract Background Plasmodium parasites are causative agents of malaria which affects >500 million people and claims ~2 million lives annually. The completion of Plasmodium genome sequencing and availability of PlasmoDB database has provided a platform for systematic study of parasite genome. Aminoacyl-tRNA synthetases (aaRSs are pivotal enzymes for protein translation and other vital cellular processes. We report an extensive analysis of the Plasmodium falciparum genome to identify and classify aaRSs in this organism. Results Using various computational and bioinformatics tools, we have identified 37 aaRSs in P. falciparum. Our key observations are: (i fraction of proteome dedicated to aaRSs in P. falciparum is very high compared to many other organisms; (ii 23 out of 37 Pf-aaRS sequences contain signal peptides possibly directing them to different cellular organelles; (iii expression profiles of Pf-aaRSs vary considerably at various life cycle stages of the parasite; (iv several PfaaRSs posses very unusual domain architectures; (v phylogenetic analyses reveal evolutionary relatedness of several parasite aaRSs to bacterial and plants aaRSs; (vi three dimensional structural modelling has provided insights which could be exploited in inhibitor discovery against parasite aaRSs. Conclusion We have identified 37 Pf-aaRSs based on our bioinformatics analysis. Our data reveal several unique attributes in this protein family. We have annotated all 37 Pf-aaRSs based on predicted localization, phylogenetics, domain architectures and their overall protein expression profiles. The sets of distinct features elaborated in this work will provide a platform for experimental dissection of this family of enzymes, possibly for the discovery of novel drugs against malaria.

  18. Mapping the structural domains of E. coli carbamoyl phosphate synthetase using limited proteolysis.

    Science.gov (United States)

    Mareya, S M; Raushel, F M

    1995-05-01

    The structural and functional domains of Escherichia coli carbamoyl phosphate synthetase (CPS) have been identified by limited proteolysis. Incubation of CPS with several proteases, including trypsin, chymotrypsin, subtilisin and endoproteinase Asp-N, under native conditions, causes a time-dependent loss of enzymatic activity and the generation of a common fragmentation pattern. Amino-terminal sequencing studies demonstrated that the initial cleavage event by trypsin occurred at the carboxy-terminal end of the large subunit. The ultimate fragments produced in most of the proteolysis studies, 35- and 45-kDa peptides, were derived from areas corresponding to the putative ATP binding regions. Substrate protection studies showed that the addition of ligands did not affect the final fragmentation pattern of the protein. However, ornithine and UMP were found to significantly reduce the rate of inactivation by inhibition of proteolytic cleavage. MgATP and IMP provided modest protection whereas bicarbonate and glutamine showed no overall effect on proteolysis. Limited proteolysis by endoproteinase Asp-N resulted in the production of a fragment (or multiple fragments) which contained enzymatic activity but had lost all regulation by the allosteric ligands, UMP and ornithine. The small subunit has been shown to be protected from proteolysis by the large subunit. Proteolysis of the isolated small subunit resulted in the generation of a stable 31-kDa species which contained 10% of the original glutaminase activity. These studies demonstrate that a portion of the C-terminal end of the large subunit can be excised without entirely destroying the ability of CPS to catalyze the formation of carbamoyl phosphate.(ABSTRACT TRUNCATED AT 250 WORDS) PMID:7648201

  19. The Molecular Basis of TnrA Control by Glutamine Synthetase in Bacillus subtilis.

    Science.gov (United States)

    Hauf, Ksenia; Kayumov, Airat; Gloge, Felix; Forchhammer, Karl

    2016-02-12

    TnrA is a master regulator of nitrogen assimilation in Bacillus subtilis. This study focuses on the mechanism of how glutamine synthetase (GS) inhibits TnrA function in response to key metabolites ATP, AMP, glutamine, and glutamate. We suggest a model of two mutually exclusive GS conformations governing the interaction with TnrA. In the ATP-bound state (A-state), GS is catalytically active but unable to interact with TnrA. This conformation was stabilized by phosphorylated L-methionine sulfoximine (MSX), fixing the enzyme in the transition state. When occupied by glutamine (or its analogue MSX), GS resides in a conformation that has high affinity for TnrA (Q-state). The A- and Q-state are mutually exclusive, and in agreement, ATP and glutamine bind to GS in a competitive manner. At elevated concentrations of glutamine, ATP is no longer able to bind GS and to bring it into the A-state. AMP efficiently competes with ATP and prevents formation of the A-state, thereby favoring GS-TnrA interaction. Surface plasmon resonance analysis shows that TnrA bound to a positively regulated promoter fragment binds GS in the Q-state, whereas it rapidly dissociates from a negatively regulated promoter fragment. These data imply that GS controls TnrA activity at positively controlled promoters by shielding the transcription factor in the DNA-bound state. According to size exclusion and multiangle light scattering analysis, the dodecameric GS can bind three TnrA dimers. The highly interdependent ligand binding properties of GS reveal this enzyme as a sophisticated sensor of the nitrogen and energy state of the cell to control the activity of DNA-bound TnrA. PMID:26635369

  20. Long chain fatty Acyl-CoA synthetase 4 is a biomarker for and mediator of hormone resistance in human breast cancer.

    Directory of Open Access Journals (Sweden)

    Xinyu Wu

    Full Text Available The purpose of this study was to determine the role of long-chain fatty acyl-CoA synthetase 4 (ACSL4 in breast cancer. Public databases were utilized to analyze the relationship between ACSL4 mRNA expression and the presence of steroid hormone and human epidermal growth factor receptor 2 (HER2 in both breast cancer cell lines and tissue samples. In addition, cell lines were utilized to assess the consequences of either increased or decreased levels of ACSL4 expression. Proliferation, migration, anchorage-independent growth and apoptosis were used as biological end points. Effects on mRNA expression and signal transduction pathways were also monitored. A meta-analysis of public gene expression databases indicated that ACSL4 expression is positively correlated with a unique subtype of triple negative breast cancer (TNBC, characterized by the absence of androgen receptor (AR and therefore referred to as quadruple negative breast cancer (QNBC. Results of experiments in breast cancer cell lines suggest that simultaneous expression of ACSL4 and a receptor is associated with hormone resistance. Forced expression of ACSL4 in ACSL4-negative, estrogen receptor α (ER-positive MCF-7 cells resulted in increased growth, invasion and anchorage independent growth, as well as a loss of dependence on estrogen that was accompanied by a reduction in the levels of steroid hormone receptors. Sensitivity to tamoxifen, triacsin C and etoposide was also attenuated. Similarly, when HER2-positive, ACSL4-negative, SKBr3 breast cancer cells were induced to express ACSL4, the proliferation rate increased and the apoptotic effect of lapatinib was reduced. The growth stimulatory effect of ACSL4 expression was also observed in vivo in nude mice when MCF-7 control and ACSL4-expressing cells were utilized to induce tumors. Our data strongly suggest that ACSL4 can serve as both a biomarker for, and mediator of, an aggressive breast cancer phenotype.

  1. Mutant glycyl-tRNA synthetase (Gars ameliorates SOD1(G93A motor neuron degeneration phenotype but has little affect on Loa dynein heavy chain mutant mice.

    Directory of Open Access Journals (Sweden)

    Gareth T Banks

    Full Text Available BACKGROUND: In humans, mutations in the enzyme glycyl-tRNA synthetase (GARS cause motor and sensory axon loss in the peripheral nervous system, and clinical phenotypes ranging from Charcot-Marie-Tooth neuropathy to a severe infantile form of spinal muscular atrophy. GARS is ubiquitously expressed and may have functions in addition to its canonical role in protein synthesis through catalyzing the addition of glycine to cognate tRNAs. METHODOLOGY/PRINCIPAL FINDINGS: We have recently described a new mouse model with a point mutation in the Gars gene resulting in a cysteine to arginine change at residue 201. Heterozygous Gars(C201R/+ mice have locomotor and sensory deficits. In an investigation of genetic mutations that lead to death of motor and sensory neurons, we have crossed the Gars(C201R/+ mice to two other mutants: the TgSOD1(G93A model of human amyotrophic lateral sclerosis and the Legs at odd angles mouse (Dync1h1(Loa which has a defect in the heavy chain of the dynein complex. We found the Dync1h1(Loa/+;Gars(C201R/+ double heterozygous mice are more impaired than either parent, and this is may be an additive effect of both mutations. Surprisingly, the Gars(C201R mutation significantly delayed disease onset in the SOD1(G93A;Gars(C201R/+ double heterozygous mutant mice and increased lifespan by 29% on the genetic background investigated. CONCLUSIONS/SIGNIFICANCE: These findings raise intriguing possibilities for the study of pathogenetic mechanisms in all three mouse mutant strains.

  2. Overexpression of acyl-CoA synthetase-1 increases lipid deposition in hepatic (HepG2) cells and rodent liver in vivo.

    Science.gov (United States)

    Parkes, Heidi A; Preston, Elaine; Wilks, Donna; Ballesteros, Mercedes; Carpenter, Lee; Wood, Leonie; Kraegen, Edward W; Furler, Stuart M; Cooney, Gregory J

    2006-10-01

    Accumulation of intracellular lipid in obesity is associated with metabolic disease in many tissues including liver. Storage of fatty acid as triglyceride (TG) requires the activation of fatty acids to long-chain acyl-CoAs (LC-CoA) by the enzyme acyl-CoA synthetase (ACSL). There are five known isoforms of ACSL (ACSL1, -3, -4, -5, -6), which vary in their tissue specificity and affinity for fatty acid substrates. To investigate the role of ACSL1 in the regulation of lipid metabolism, we used adenoviral-mediated gene transfer to overexpress ACSL1 in the human hepatoma cell-line HepG2 and in liver of rodents. Infection of HepG2 cells with the adenoviral construct AdACSL1 increased ACSL activity >10-fold compared with controls after 24 h. HepG2 cells overexpressing ACSL1 had a 40% higher triglyceride (TG) content (93 +/- 3 vs. 67 +/- 2 nmol/mg protein in controls, P LCA-CoA content (160 +/- 6 vs. 100 +/- 6 nmol/g protein in controls, P < 0.05) and increased [(14)C]oleate incorporation into TG without significantly altering fatty acid oxidation. In mice, AdACSL1 administration increased ACSL1 mRNA and protein more than fivefold over controls at 4 days postinfection. ACSL1 overexpression caused a twofold increase in TG content in mouse liver (39 +/- 4 vs. 20 +/- 2 mumol/g wet wt in controls, P < 0.05), and overexpression in rat liver increased [1-(14)C]palmitate clearance into liver TG. These in vitro and in vivo results suggest a pivotal role for ACSL1 in regulating TG synthesis in liver. PMID:16705061

  3. Activity of the acyl-CoA synthetase ACSL6 isoforms: role of the fatty acid Gate-domains

    Directory of Open Access Journals (Sweden)

    Siliakus Melvin

    2010-04-01

    Full Text Available Abstract Background Activation of fatty acids by acyl-CoA synthetase enzymes is required for de novo lipid synthesis, fatty acid catabolism, and remodeling of biological membranes. Human long-chain acyl-CoA synthetase member 6, ASCL6, is a form present in the plasma membrane of cells. Splicing events affecting the amino-terminus and alternative motifs near the ATP-binding site generate different isoforms of ACSL6. Results Isoforms with different fatty acid Gate-domain motifs have different activity and the form lacking this domain, isoform 3, showed no detectable activity. Enzymes truncated of the first 40 residues generate acyl-CoAs at a faster rate than the full-length protein. The gating residue, which prevents entry of the fatty acid substrate unless one molecule of ATP has already accessed the catalytic site, was identified as a tyrosine for isoform 1 and a phenylalanine for isoform 2 at position 319. All isoforms, with or without a fatty acid Gate-domain, as well as recombinant protein truncated of the N-terminus, can interact to form enzymatic complexes with identical or different isoforms. Conclusion The alternative fatty acid Gate-domain motifs are essential determinants for the activity of the human ACSL6 isoforms, which appear to act as homodimeric enzyme as well as in complex with other spliced forms. These findings provide evidence that the diversity of these enzyme species could produce the variety of acyl-CoA synthetase activities that are necessary to generate and repair the hundreds of lipid species present in membranes.

  4. Cloning and biochemical characterization of indole-3-acetic acid-amino acid synthetase PsGH3 from pea.

    Science.gov (United States)

    Ostrowski, Maciej; Mierek-Adamska, Agnieszka; Porowińska, Dorota; Goc, Anna; Jakubowska, Anna

    2016-10-01

    Phytohormone conjugation is one of the mechanisms that maintains a proper hormonal homeostasis and that is necessary for the realization of physiological responses. Gretchen Hagen 3 (GH3) acyl acid amido synthetases convert indole-3-acetic acid (IAA) to IAA-amino acid conjugates by ATP-dependent reactions. IAA-aspartate (IAA-Asp) exists as a predominant amide conjugate of auxin in pea tissues and acts as an intermediate during IAA catabolism. Here we report a novel recombinant indole-3-acetic acid-amido synthetase in Pisum sativum. In silico analysis shows that amino acid sequence of PsGH3 has the highest homology to Medicago truncatula GH3.3. The recombinant His-tag-PsGH3 fusion protein has been obtained in E. coli cells and is a soluble monomeric polypeptide with molecular mass of 69.18 kDa. The PsGH3 was purified using Ni(2+)-affinity chromatography and native PAGE. Kinetic analysis indicates that the enzyme strongly prefers IAA and L-aspartate as substrates for conjugation revealing Km(ATP) = 0.49 mM, Km(L-Asp) = 2.2 mM, and Km(IAA) = 0.28 mM. Diadenosine pentaphosphate (Ap5A) competes with ATP for catalytic site and diminishes the PsGH3 affinity toward ATP approximately 1.11-fold indicating Ki = 8.5 μM. L-Tryptophan acts as an inhibitor of IAA-amido synthesizing activity by competition with L-aspartate. Inorganic pyrophosphatase (PPase) hydrolyzing pyrophosphate to two phosphate ions, potentiates IAA-Asp synthetase activity of PsGH3. Our results demonstrate that PsGH3 is a novel enzyme that is involved in auxin metabolism in pea seeds. PMID:27235647

  5. Characterization of the Escherichia coli prsA1-encoded mutant phosphoribosylpyrophosphate synthetase identifies a divalent cation-nucleotide binding site

    DEFF Research Database (Denmark)

    Bower, Stanley G.; Harlow, Kenneth W.; Switzer, Robert L.;

    1989-01-01

    The prsA1 allele, specifying a mutant Escherichia coli phosphoribosylpyrophosphate (PRPP) synthetase, has been cloned. The mutation was shown by nucleotide sequence analysis to result from substitution of Asp-128 (GAT) in the wild type by Ala (GCT) in prsA1. This alteration was confirmed......-fold lower affinity for Ca2+, as judged by the ability of Ca2+ to inhibit the reaction in the presence of 10 mM Mg2+. Wild type PRPP synthetase is subject to product inhibition by AMP, but AMP inhibition of the prsA1 mutant enzyme could not be detected. It has been previously proposed that a divalent...... cation binds to PRPP synthetase and serves as a bridge to the α-phosphate of ATP and AMP at the active site. The prsA1 mutation appears to alter this divalent cation site....

  6. Enhancement of E. coli acyl-CoA synthetase FadD activity on medium chain fatty acids

    OpenAIRE

    Ford, Tyler J.; Way, Jeffrey C

    2015-01-01

    FadD catalyses the first step in E. coli beta-oxidation, the activation of free fatty acids into acyl-CoA thioesters. This activation makes fatty acids competent for catabolism and reduction into derivatives like alcohols and alkanes. Alcohols and alkanes derived from medium chain fatty acids (MCFAs, 6–12 carbons) are potential biofuels; however, FadD has low activity on MCFAs. Herein, we generate mutations in fadD that enhance its acyl-CoA synthetase activity on MCFAs. Homology modeling reve...

  7. Functional asymmetry in the lysyl-tRNA synthetase explored by molecular dynamics, free energy calculations and experiment

    Directory of Open Access Journals (Sweden)

    Miller Andrew D

    2003-06-01

    Full Text Available Abstract Background Charging of transfer-RNA with cognate amino acid is accomplished by the aminoacyl-tRNA synthetases, and proceeds through an aminoacyl adenylate intermediate. The lysyl-tRNA synthetase has evolved an active site that specifically binds lysine and ATP. Previous molecular dynamics simulations of the heat-inducible Escherichia coli lysyl-tRNA synthetase, LysU, have revealed differences in the binding of ATP and aspects of asymmetry between the nominally equivalent active sites of this dimeric enzyme. The possibility that this asymmetry results in different binding affinities for the ligands is addressed here by a parallel computational and biochemical study. Results Biochemical experiments employing isothermal calorimetry, steady-state fluorescence and circular dichroism are used to determine the order and stoichiometries of the lysine and nucleotide binding events, and the associated thermodynamic parameters. An ordered mechanism of substrate addition is found, with lysine having to bind prior to the nucleotide in a magnesium dependent process. Two lysines are found to bind per dimer, and trigger a large conformational change. Subsequent nucleotide binding causes little structural rearrangement and crucially only occurs at a single catalytic site, in accord with the simulations. Molecular dynamics based free energy calculations of the ATP binding process are used to determine the binding affinities of each site. Significant differences in ATP binding affinities are observed, with only one active site capable of realizing the experimental binding free energy. Half-of-the-sites models in which the nucleotide is only present at one active site achieve their full binding potential irrespective of the subunit choice. This strongly suggests the involvement of an anti-cooperative mechanism. Pathways for relaying information between the two active sites are proposed. Conclusions The asymmetry uncovered here appears to be a common

  8. Cofactor requirements and reconstitution of microcin B17 synthetase: a multienzyme complex that catalyzes the formation of oxazoles and thiazoles in the antibiotic microcin B17.

    Science.gov (United States)

    Milne, J C; Roy, R S; Eliot, A C; Kelleher, N L; Wokhlu, A; Nickels, B; Walsh, C T

    1999-04-13

    In the maturation of the Escherichia coli antibiotic Microcin B17 (MccB17), the McbA prepro-antibiotic is modified post-translationally by the multimeric microcin synthetase complex (composed of the McbB, -C, and -D proteins), which cyclizes four cysteines and four serines to thiazoles and oxazoles, respectively. Herein, we report the purification of individual subunits of MccB17 synthetase as fusions to maltose binding protein (MBP), and the in vitro reconstitution of heterocyclization activity. Preliminary characterization of each subunit reveals McbB to be a zinc-containing protein that may catalyze the initial cyclodehydration step, and McbC to contain flavin, consistent with an anticipated role for a dehydrogenase. We have previously demonstrated that McbD is a regulated ATPase/GTPase that may function as a conformational switch. Photolabeling experiments with the McbA propeptide now identify McbD as the initial site of substrate recognition. Heterocyclization activity was reconstituted only by combining all three subunits, demonstrating that each protein is required for heterocycle formation. Titration assays indicate that the subunits bind to each other with at least micromolar affinities, although McbD affords activity only after the MBP tag is proteolytically removed. Subunit competition assays with an McbDD147A mutant, which yields a catalytically deficient synthetase in vivo, show it to be defective in complex formation, whereas the McbBC181A/C184A double mutant, which is also inactive, competitively inhibits reconstitution by native McbB. Addition of the HtpG chaperone (originally shown to copurify with MccB17 synthetase), does not stimulate synthetase reconstitution or heterocyclization activity in vitro. A model for synthetase activity is proposed.

  9. Diagnostic utility and limitations of glutamine synthetase and serum amyloid-associated protein immunohistochemistry in the distinction of focal nodular hyperplasia and inflammatory hepatocellular adenoma.

    Science.gov (United States)

    Joseph, Nancy M; Ferrell, Linda D; Jain, Dhanpat; Torbenson, Michael S; Wu, Tsung-Teh; Yeh, Matthew M; Kakar, Sanjay

    2014-01-01

    Inflammatory hepatocellular adenoma can show overlapping histological features with focal nodular hyperplasia, including inflammation, fibrous stroma, and ductular reaction. Expression of serum amyloid-associated protein in inflammatory hepatocellular adenoma and map-like pattern of glutamine synthetase in focal nodular hyperplasia can be helpful in this distinction, but the pitfalls and limitations of these markers have not been established. Morphology and immunohistochemistry were analyzed in 54 inflammatory hepatocellular adenomas, 40 focal nodular hyperplasia, and 3 indeterminate lesions. Morphological analysis demonstrated that nodularity, fibrous stroma, dystrophic blood vessels, and ductular reaction were more common in focal nodular hyperplasia, while telangiectasia, hemorrhage, and steatosis were more common in inflammatory hepatocellular adenoma, but there was frequent overlap of morphological features. The majority of inflammatory hepatocellular adenomas demonstrated perivascular and/or patchy glutamine synthetase staining (73.6%), while the remaining cases had diffuse (7.5%), negative (3.8%), or patchy pattern of staining (15%) that showed subtle differences from the classic map-like staining pattern and was designated as pseudo map-like staining. Positive staining for serum amyloid-associated protein was seen in the majority of inflammatory hepatocellular adenomas (92.6%) and in the minority of focal nodular hyperplasia (17.5%). The glutamine synthetase staining pattern was map-like in 90% of focal nodular hyperplasia cases, with the remaining 10% of cases showing pseudo map-like staining. Three cases were labeled as indeterminate and showed focal nodular hyperplasia-like morphology but lacked map-like glutamine synthetase staining pattern; these cases demonstrated a patchy pseudo map-like glutamine synthetase pattern along with the expression of serum amyloid-associated protein. Our results highlight the diagnostic errors that can be caused by variant

  10. Detection of microcystin synthetase genes in health food supplements containing the freshwater cyanobacterium Aphanizomenon flos-aquae

    OpenAIRE

    Saker, Martin L.; Jungblut, Anne-Dorothee; Neilan, Brett A.; Rawn, Dorothea F. K.; Vasconcelos, Vitor M.

    2005-01-01

    In this study we investigated the presence of toxin-producing cyanobacterial contaminants in food supplements manufactured from blooms of the non-toxic freshwater cyanobacterium Aphanizomenon flos-aquae. Previous reports investigating the contamination of health food supplements with toxin-producing cyanobacteria have used chemical and or biochemical methods such as HPLC, ELISA and protein phosphatase assays. Whilst these studies have drawn attention to the presence of hepatotoxic microcystin...

  11. Silencing of vacuolar invertase and asparagine synthetase genes and its impact on acrylamide formation of fried potato products

    Science.gov (United States)

    Acrylamide is produced in a wide variety of carbohydrate-rich foods during high temperature cooking. Dietary acrylamide is a suspected human carcinogen, and health concerns related to dietary acrylamide have been raised worldwide. French fries and potato chips contribute a significant proportion to ...

  12. Regulation of glutamine synthetase activity in the unicellular cyanobacterium Synechocystis sp. strain PCC 6803 by the nitrogen source: effect of ammonium.

    OpenAIRE

    Mérida, A; Candau, P.; Florencio, F.J.

    1991-01-01

    Glutamine synthetase activity from Synechocystis sp. strain PCC 6803 is regulated as a function of the nitrogen source available in the medium. Addition of 0.25 mM NH4Cl to nitrate-grown cells promotes a clear short-term inactivation of glutamine synthetase, whose enzyme activity decreases to 5 to 10% of the initial value in 25 min. The intracellular levels of glutamine, determined under various conditions, taken together with the results obtained with azaserine (an inhibitor of transamidases...

  13. Pseudomonas corrugata crpCDE is part of the cyclic lipopeptide corpeptin biosynthetic gene cluster and is involved in bacterial virulence in tomato and in hypersensitive response in Nicotiana benthamiana

    NARCIS (Netherlands)

    Strano, C.P.; Bella, P.; Licciardello, G.; Fiore, A.; Piero, Lo A.R.; Fogliano, V.; Fogliano, V.; Catara, V.

    2015-01-01

    Pseudomonas corrugata CFBP 5454 produces two kinds of cyclic lipopeptides (CLPs), cormycin A and corpeptins, both of which possess surfactant, antimicrobial and phytotoxic activities. In this study, we identified genes coding for a putative non-ribosomal peptide synthetase and an ABC-type transport

  14. The T box regulatory element controlling expression of the class I lysyl-tRNA synthetase of Bacillus cereus strain 14579 is functional and can be partially induced by reduced charging of asparaginyl-tRNAAsn

    LENUS (Irish Health Repository)

    Foy, Niall

    2010-07-22

    Abstract Background Lysyl-tRNA synthetase (LysRS) is unique within the aminoacyl-tRNA synthetase family in that both class I (LysRS1) and class II (LysRS2) enzymes exist. LysRS1 enzymes are found in Archaebacteria and some eubacteria while all other organisms have LysRS2 enzymes. All sequenced strains of Bacillus cereus (except AH820) and Bacillus thuringiensis however encode both a class I and a class II LysRS. The lysK gene (encoding LysRS1) of B. cereus strain 14579 has an associated T box element, the first reported instance of potential T box control of LysRS expression. Results A global study of 891 completely sequenced bacterial genomes identified T box elements associated with control of LysRS expression in only four bacterial species: B. cereus, B. thuringiensis, Symbiobacterium thermophilum and Clostridium beijerinckii. Here we investigate the T box element found in the regulatory region of the lysK gene in B. cereus strain 14579. We show that this T box element is functional, responding in a canonical manner to an increased level of uncharged tRNALys but, unusually, also responding to an increased level of uncharged tRNAAsn. We also show that B. subtilis strains with T box regulated expression of the endogenous lysS or the heterologous lysK genes are viable. Conclusions The T box element controlling lysK (encoding LysRS1) expression in B. cereus strain 14579 is functional, but unusually responds to depletion of charged tRNALys and tRNAAsn. This may have the advantage of making LysRS1 expression responsive to a wider range of nutritional stresses. The viability of B. subtilis strains with a single LysRS1 or LysRS2, whose expression is controlled by this T box element, makes the rarity of the occurrence of such control of LysRS expression puzzling.

  15. Genes and Gene Therapy

    Science.gov (United States)

    ... correctly, a child can have a genetic disorder. Gene therapy is an experimental technique that uses genes to ... or prevent disease. The most common form of gene therapy involves inserting a normal gene to replace an ...

  16. Moraxella osloensis Gene Expression in the Slug Host Deroceras reticulatum

    Directory of Open Access Journals (Sweden)

    Sreevatsan Srinand

    2008-01-01

    Full Text Available Abstract Background The bacterium Moraxella osloensis is a mutualistic symbiont of the slug-parasitic nematode Phasmarhabditis hermaphrodita. In nature, P. hermaphrodita vectors M. osloensis into the shell cavity of the slug host Deroceras reticulatum in which the bacteria multiply and kill the slug. As M. osloensis is the main killing agent, genes expressed by M. osloensis in the slug are likely to play important roles in virulence. Studies on pathogenic interactions between bacteria and lower order hosts are few, but such studies have the potential to shed light on the evolution of bacterial virulence. Therefore, we investigated such an interaction by determining gene expression of M. osloensis in its slug host D. reticulatum by selectively capturing transcribed sequences. Results Thirteen M. osloensis genes were identified to be up-regulated post infection in D. reticulatum. Compared to the in vitro expressed genes in the stationary phase, we found that genes of ubiquinone synthetase (ubiS and acyl-coA synthetase (acs were up-regulated in both D. reticulatum and stationary phase in vitro cultures, but the remaining 11 genes were exclusively expressed in D. reticulatum and are hence infection specific. Mutational analysis on genes of protein-disulfide isomerase (dsbC and ubiS showed that the virulence of both mutants to slugs was markedly reduced and could be complemented. Further, compared to the growth rate of wild-type M. osloensis, the dsbC and ubiS mutants showed normal and reduced growth rate in vitro, respectively. Conclusion We conclude that 11 out of the 13 up-regulated M. osloensis genes are infection specific. Distribution of these identified genes in various bacterial pathogens indicates that the virulence genes are conserved among different pathogen-host interactions. Mutagenesis, growth rate and virulence bioassays further confirmed that ubiS and dsbC genes play important roles in M. osloensis survival and virulence, respectively

  17. Cloning, expression, purification, crystallization and preliminary X-ray analysis of Thermus aquaticus succinyl-CoA synthetase

    Energy Technology Data Exchange (ETDEWEB)

    Joyce, Michael A. [Department of Biochemistry, University of Alberta, Edmonton, Alberta T6G 2H7 (Canada); Brownie, Edward R.; Hayakawa, Koto; Fraser, Marie E., E-mail: frasm@ucalgary.ca [Department of Biological Sciences, University of Calgary, 2500 University Drive NW, Calgary, Alberta T2N 1N4 (Canada); Department of Biochemistry, University of Alberta, Edmonton, Alberta T6G 2H7 (Canada)

    2007-05-01

    Attempts to crystallize succinyl-CoA synthetase from the thermophile T. aquaticus were thwarted by proteolysis of the β-subunit and preferential crystallization of a truncated form. Crystals of the full-length enzyme were grown after the purification protocol was modified to include frequent additions of protease inhibitors. Succinyl-CoA synthetase (SCS) is an enzyme of the citric acid cycle and is thus found in most species. To date, there are no structures available of SCS from a thermophilic organism. To investigate how the enzyme adapts to higher temperatures, SCS from Thermus aquaticus was cloned, overexpressed, purified and crystallized. Attempts to crystallize the enzyme were thwarted by proteolysis of the β-subunit and preferential crystallization of the truncated form. Crystals of full-length SCS were grown after the purification protocol was modified to include frequent additions of protease inhibitors. The resulting crystals, which diffract to 2.35 Å resolution, are of the protein in complex with Mn{sup 2+}-GDP.

  18. Crystallization of leucyl-tRNA synthetase complexed with tRNALeu from the archaeon Pyrococcus horikoshii

    International Nuclear Information System (INIS)

    The leucyl-tRNA synthetase (LeuRS) from P. horikoshii has been overexpressed in Escherichia coli and purified, and cocrystallizations with each of the tRNALeu isoacceptors have been attempted. Cocrystals were obtained by the hanging-drop vapour-diffusion method, but only when the tRNALeu isoacceptor with the anticodon CAA was used. All five tRNALeu isoacceptors from the archaeon Pyrococcus horikoshii have been transcribed in vitro and purified. The leucyl-tRNA synthetase (LeuRS) from P. horikoshii was overexpressed in Escherichia coli and purified, and cocrystallizations with each of the tRNALeu isoacceptors were attempted. Cocrystals were obtained by the hanging-drop vapour-diffusion method, but only when the tRNALeu isoacceptor with the anticodon CAA was used. Electrophoretic analyses revealed that the crystals contain both LeuRS and tRNALeu, suggesting that they are LeuRS–tRNALeu complex crystals. A data set diffracting to 3.3 Å resolution was collected from a single crystal at 100 K. The crystal belongs to the orthorhombic space group P21212, with unit-cell parameters a = 118.18, b = 120.55, c = 231.13 Å. The asymmetric unit is expected to contain two complexes of LeuRS–tRNALeu, with a corresponding crystal volume per protein weight of 2.9 Å3 Da−1 and a solvent content of 57.3%

  19. Origin and evolution of glutamyl-prolyl tRNA synthetase WHEP domains reveal evolutionary relationships within Holozoa.

    Directory of Open Access Journals (Sweden)

    Partho Sarothi Ray

    Full Text Available Repeated domains in proteins that have undergone duplication or loss, and sequence divergence, are especially informative about phylogenetic relationships. We have exploited divergent repeats of the highly structured, 50-amino acid WHEP domains that join the catalytic subunits of bifunctional glutamyl-prolyl tRNA synthetase (EPRS as a sequence-informed repeat (SIR to trace the origin and evolution of EPRS in holozoa. EPRS is the only fused tRNA synthetase, with two distinct aminoacylation activities, and a non-canonical translation regulatory function mediated by the WHEP domains in the linker. Investigating the duplications, deletions and divergence of WHEP domains, we traced the bifunctional EPRS to choanozoans and identified the fusion event leading to its origin at the divergence of ichthyosporea and emergence of filozoa nearly a billion years ago. Distribution of WHEP domains from a single species in two or more distinct clades suggested common descent, allowing the identification of linking organisms. The discrete assortment of choanoflagellate WHEP domains with choanozoan domains as well as with those in metazoans supported the phylogenetic position of choanoflagellates as the closest sister group to metazoans. Analysis of clustering and assortment of WHEP domains provided unexpected insights into phylogenetic relationships amongst holozoan taxa. Furthermore, observed gaps in the transition between WHEP domain groupings in distant taxa allowed the prediction of undiscovered or extinct evolutionary intermediates. Analysis based on SIR domains can provide a phylogenetic counterpart to palaentological approaches of discovering "missing links" in the tree of life.

  20. Glutamine synthetase and Wnt-signaling%谷氨酰胺合成酶与Wnt信号转导通路

    Institute of Scientific and Technical Information of China (English)

    彭春伟; 燕敏

    2009-01-01

    GS(glutamine synthetase)或GLUL(glutamate-ammonia ligase),即谷氨酰胺合成酶,为人体内重要的功能酶,催化谷氨酸与氨生成谷氨酰胺.在体内氮的代谢中,尤其在维持氨离子和谷氨酰胺的稳定中发挥着重要的作用.GS表达和活性的异常常会导致人体很多疾病的发生.近年来研究发现GS表达和活性的异常与Wnt信号通路的异常密切相关.%GS is also called glutamine synthetase or glutamate-ammonia ligase, which is an important enzyme in human body. It can catalyze glutamine from glutamate and ammonia. Besides, it plays an important role in nitrogen metabolism, particularly in homeostasis of blood levels of ammonium ions and glutamine. The aberrant expression and activity will cause many human diseases. Recent studies show that the abnormality of its expression and activity has a close relationship with the aberrance of Wnt-signaling.