Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:6.3.5.5 (CPS)
1,262 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The reactive cysteine residue within the small subunit of Escherichia coli carbamoyl phosphate synthetase has been identified using the technique of site-directed mutagenesis. Three cysteine residues have previously been found to react with N-ethylmaleimide (NEM) under controlled reaction conditions. Two of these cysteine residues are found on the large subunit, while the third cysteine is located on the small subunit. In the present investigation, Cys-248 of the small subunit has been identified as the residue that reacts with NEM in the presence of MgATP and bicarbonate. Three cysteine residues of the small subunit at positions 131, 214, and 248 were individually mutated to serine residues. These site-specific changes, in addition to N-ethylmaleimide-labeling studies, demonstrated that Cys-248 is the amino acid that reacts with N-ethylmaleimide. Substitution of Cys-248 of the small subunit with larger residues (Asp, Phe, Arg, and Trp) was conducted in order to more closely mimic the observed properties of the NEM-labeled enzyme. The partial glutaminase activity of the C248D mutant increased 40-fold relative to the wild-type enzyme, while the formation of carbamoyl phosphate using glutamine as a nitrogen source was completely abolished. Similar, but less dramatic, effects were observed for the other mutants, C248S, C248R, C248F, and C248W. There was good correlation between the extent of enhancement of the partial glutaminase activity and an uncoupling of the phosphorylation reactions that occur on the large subunit.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A molecular wedge for triggering the amidotransferase activity of carbamoyl phosphate synthetase. 813 Feb 8

The synthesis of citrulline from glutamine was quantified in enterocytes from pre-weaning (14-21 days old) and post-weaning (29-58 days old) pigs. The cells were incubated at 37 degrees C for 30 min in Krebs-Henseleit bicarbonate buffer (pH 7.4) containing 0, 0.5, 2 and 5 mM glutamine. Oxygen consumption was linear during the 30 min incubation period. The rates of citrulline synthesis were low or negligible in enterocytes from 14-21-day-old pigs, but increased 10-20-fold in the cells from 29-58-day-old pigs. This marked elevation of citrulline synthesis coincided with an increase in the activity of pyrroline-5-carboxylate synthase with the animal's post-weaning growth. In contrast, decreases in the activities of phosphate-dependent glutaminase, ornithine aminotransferase, ornithine carbamoyltransferase and carbamoyl-phosphate synthase were observed as the age of the pigs increased. The concentrations of carbamoyl phosphate in enterocytes from pre-weaning pigs were higher than, or similar to, those in the cells from post-weaning pigs. It is possible that the low rate of citrulline synthesis from glutamine in enterocytes from pre-weaning pigs was due to a limited availability of ornithine, rather than that of carbamoyl phosphate. We suggest that this limited availability of ornithine in pre-weaning-pig enterocytes results from (i) the low rate of pyrroline-5-carboxylate synthesis from glutamate, due to the low activity of pyrroline-5-carboxylate synthase, and (ii) the competitive conversion of pyrroline-5-carboxylate into proline. Our present findings on the developmental aspect of citrulline synthesis in pig enterocytes may offer a biochemical mechanism for the previous observations that arginine is a nutritionally essential amino acid for suckling piglets, but not for adult pigs.
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PMID:Synthesis of citrulline from glutamine in pig enterocytes. 816 28

Genomic clones capable of complementing a previously isolated arginine auxotrophic mutant strain of the filamentous yeast Trichosporon cutaneum DSM 70698 have been identified by DNA-mediated transformation, and a complementing 4,082-bp subfragment was sequenced. This analysis revealed an intact gene (arg4) showing a high degree of homology with the Saccharomyces cerevisiae CPA2 gene encoding the large subunit of carbamoyl-phosphate synthetase (CPS-A). The inferred amino acid sequence of the T. cutaneum argA-encoded protein contains 1,168 residues showing 62% identity with the sequence of the S. cerevisiae CPA2 protein, and the comparison of the two sequences uncovered a putative intron sequence of 81 nucleotides close to the 5' end of the coding region of the T. cutaneum argA gene. The presence of this intron was confirmed by nuclease protection studies and by direct DNA sequence analysis of a cDNA fragment which had been obtained by PCR amplification. The T. cutaneum intron shares the general characteristics of introns found in yeasts and filamentous fungi. A major transcript of around 4 kb was found in Northern (RNA) blots. The T. cutaneum argA coding region was expressed in Escherichia coli under the control of the regulatable tac promoter. A roughly 130-kDa protein which was found to cross-react with an anti-rat CPS antibody in Western blots (immunoblots) was observed. Two putative ATP-binding domains were identified, one in the amino-terminal half of the argA-encoded protein and the other in the carboxy-terminal half. These domains are highly conserved among the known CPS-A sequences from S. cerevisiae, E. coli, and the rat. From these results we conclude that the T. cutaneum argA gene encodes the large subunit of CPS. This is the first gene to be identified and analyzed in the T. cutaneum DSM 70698 strain.
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PMID:Molecular analysis of the Trichosporon cutaneum DSM 70698 argA gene and its use for DNA-mediated transformations. 818 3

1. Carbamoyl-phosphate synthetase (EC 6.3.5.5.) catalyses the synthesis of carbamoyl phosphate, the immediate precursor of arginine and pyrimidine biosynthesis, and is highly conserved throughout evolution. The large subunit of all carbamoyl-phosphate synthetases sequenced to date comprises two highly homologous halves, the product of a proposed ancestral gene duplication. The sequences of the enzymes of Escherichia coli, Drosophila melanogaster, Saccharomyces cerevisiae, rat and Syrian hamster all have duplications, suggesting that this event occurred in the progenote predating the separation of the major phylae. Until now, only limited data on carbamoyl-phosphate synthetase were available for the primitive eukaryote Dictyostelium discoideum and for the Archaea Methanosarcina barkeri MS. The DNA sequence of the D. discoideum carbamoyl-phosphate gene and additional sequence for the carbamoyl-phosphate synthetase gene of M. barkeri MS have been determined, and a duplicated structure for both is clearly demonstrated. 2. Genes with ancient duplications provide unique information on their evolution. A study of the intron/exon organization of the rat carbamoyl-phosphate synthetase I gene and the carbamoyl-phosphate synthetase hamster II gene in the CAD multi-gene complex shows that at least some of their introns are very old. Evidence is provided that some introns must have been present in the ancestral precursor before its duplication. 3. The human carbamoyl-phosphate synthetase I gene has been isolated and characterized. A human liver cDNA library was constructed and probed for carbamoyl-phosphate synthetase I. A human genomic DNA cosmid library was also probed for the carbamoyl-phosphate synthetase I gene. The cDNA sequence of the human carbamoyl-phosphate synthetase I gene has been determined, and work has been initiated to confirm that at least part of this gene is contained within two cosmids spanning 46kb. This will enable future studies to be made on mutations in this gene in the rare autosomal recessive deficiency of carbamoyl-phosphate synthetase I.
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PMID:Molecular studies on an ancient gene encoding for carbamoyl-phosphate synthetase. 838 76

A genetic approach was used to establish the route of UMP biosynthesis in Sulfolobus acidocaldarius, a member of the hyperthermophilic division (the Crenarchaeota) of the Archaea domain. Pyrimidine auxotrophs of S. acidocaldarius DG6 were isolated by direct selection and by brute-force methods. Enzymatic assay of extracts from wild-type S. acidocaldarius, from pyrimidine auxotrophs, and from phenotypic revertants demonstrated that S. acidocaldarius synthesizes UMP via orotate in six enzymatic steps corresponding to the de novo pathway of other organisms. The results also show that a single carbamoyl phosphate synthetase supplies both the pyrimidine and arginine pathways of this organism. To gain similar insight into pyrimidine salvage pathway(s), prototrophic mutants resistant to toxic pyrimidine analogs were also isolated and characterized. The results suggest that a single class of mutants which had acquired elevated resistance to four different 5-fluoropyrimidines had been isolated. These fluoropyrimidine-resistant mutants appear to have a regulatory defect leading to overproduction of one or more endogenous pyrimidine compounds.
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PMID:Sulfolobus acidocaldarius synthesizes UMP via a standard de novo pathway: results of biochemical-genetic study. 844 10

The arginine-specific carbamoyl phosphate synthetase of Saccharomyces cerevisiae is a heterodimeric enzyme, with a 45-kDa CPA1 subunit binding and cleaving glutamine, and a 124-kDa CPA2 subunit accepting the ammonia moiety cleaved from glutamine, binding all of the remaining substrates and carrying out all of the other catalytic events. CPA2 is composed of two apparently duplicated amino acid sequences involved in binding the two ATP molecules needed for carbamoyl phosphate synthesis and a carboxyl-terminal domain which appears to be less tightly folded than the remainder of the protein. Using deletion mutagenesis, we have established that essentially all of the carboxyl-terminal domain of CPA2 is required for catalytic function and that even small truncations lead to significant changes in the CPA2 conformation. In addition, we have demonstrated that the C-terminal region of CPA2 can be expressed as an autonomously folded unit which is stabilized by specific interactions with the remainder of CPA2. We also made the unexpected finding that, even when ammonia is used as the substrate and there is no catalytic role for CPA1, interaction with CPA1 led to an increase in the Vmax of CPA2 in crude extracts.
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PMID:Requirement for the carboxyl-terminal domain of Saccharomyces cerevisiae carbamoyl-phosphate synthetase. 862 95

The Neurospora crassa arg-2 gene encodes the small subunit of arginine-specific carbamoyl phosphate synthetase. The levels of arg-2 mRNA and mRNA translation are negatively regulated by arginine. An upstream open reading frame (uORF) in the transcript's 5' region has been implicated in arginine-specific control. An arg-2-hph fusion gene encoding hygromycin phosphotransferase conferred arginine-regulated resistance to hygromycin when introduced into N. crassa. We used an arg-2-hph strain to select for UV-induced mutants that grew in the presence of hygromycin and arginine, and we isolated 46 mutants that had either of two phenotypes. One phenotype indicated altered expression of both arg-2-hph and arg-2 genes; the other, altered expression of arg-2-hph but not arg-2. One of the latter mutations, which was genetically closely linked to arg-2-hph, was recovered from the 5' region of the arg-2-hph gene using PCR. Sequence analyses and transformation experiments revealed a mutation at uORF codon 12 (Asp to Asn) that abrogated negative regulation. Examination of the distribution of ribosomes on arg-2-hph transcripts showed that loss of regulation had a translational component, indicating the uORF sequence was important for Arg-specific translational control. Comparisons with other uORF5 suggest common elements in translational control mechanisms.
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PMID:A UV-induced mutation in neurospora that affects translational regulation in response to arginine. 877 May 89

The gene encoding the small subunit of the arginine-specific carbamoyl phosphate synthetase, ARG2, of Magnaporthe grisea was characterized to examine the basic regulation of biosynthetic genes in this plant pathogen. The transcript of the ARG2 gene contains an upstream open reading frame (uORF) that is similar to uORFs found in the homologous genes of Neurospora crassa (arg-2) and Saccharomyces cerevisiae (CPA1), suggesting that the M. grisea gene is translationally regulated by a mechanism that is conserved in these fungi. Amino acid imbalance leads to elevated levels of ARG2 mRNA, indicating that in addition to translational control, ARG2 is subject to cross-pathway transcriptional control. A DNA-binding activity that has properties similar to those of the global transcriptional regulator mediating cross-pathway control in N. crassa was detected in M. grisea cell extracts. Thus, it appears that both specific regulation of ARG2 by arginine and global regulation of amino acid biosynthesis are present in M. grisea and highly conserved among M. grisea, N. crassa, and S. cerevisiae.
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PMID:Cross-Pathway and Pathway-Specific Control of Amino Acid Biosynthesis in Magnaporthe grisea 907 79

The gene encoding the small subunit of the arginine-specific carbamoyl phosphate synthetase, ARG2, of Magnaporthe grisea was characterized to examine the basic regulation of biosynthetic genes in this plant pathogen. The transcript of the ARG2 gene contains an upstream open reading frame (uORF) that is similar to uORFs found in the homologous genes of Neurospora crassa (arg-2) and Saccharomyces cerevisiae (CPA1), suggesting that the M. grisea gene is translationally regulated by a mechanism that is conserved in these fungi. Amino acid imbalance leads to elevated levels of ARG2 mRNA, indicating that in addition to translational control, ARG2 is subject to cross-pathway transcriptional control. A DNA-binding activity that has properties similar to those of the global transcriptional regulator mediating cross-pathway control in N. crassa was detected in M. grisea cell extracts. Thus, it appears that both specific regulation of ARG2 by arginine and global regulation of amino acid biosynthesis are present in M. grisea and highly conserved among M. grisea, N. crassa, and S. cerevisiae.
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PMID:Cross-pathway and pathway-specific control of amino acid biosynthesis in Magnaporthe grisea. 912 16

The arg2 gene which encodes the small subunit of carbamoyl phosphate synthetase for Trichoderma virens has been cloned and used to develop a homologous transformation system. A genomic clone containing the arg2 gene was isolated from a cosmid library of T. virens based on complementation of an arginine auxotrophic mutant of this fungus. The predicted amino acid sequence of the arg2 gene shows 56-82% identity with homologous polypeptides from other fungi. It also contains an upstream open reading frame which encodes 24 amino acids. As is observed with other gene sequences encoding this polypeptide in filamentous fungi, the N-terminus of the predicted polypeptide showed characteristic features of a mitochondrial signal sequence. The arg2 gene was used for genetic transformation of T. virens in frequencies of up to 370 transformants/microgram of DNA. Heat-shock treatment of T. virens protoplasts increased the transformation frequency by fivefold, but more than 85% of the transformants were abortive. Both single-copy, homologous integration events and ectopic, non-homologous integration events were detected by Southern analyses of genomic DNA from transformed strains.
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PMID:The arg2 gene of Trichoderma virens: cloning and development of a homologous transformation system. 950 76


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