EC:6.3.5.5 - FACTA Search

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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)

Total RNA or poly(A)(+) RNA of rat liver was translated in a rabbit reticulocyte or wheat germ protein-synthesizing system and the carbamyl phosphate synthetase I [carbamoyl-phosphate synthetase (ammonia); carbon dioxide: ammonia ligase (ADP-forming, carbamate-phosphorylating), EC 6.3.4.16] synthesized was isolated by indirect immunoprecipitation by using antibody purified on enzyme-bound Sepharose and Staphylococcus aureus cells. The in vitro product moved on sodium dodecyl sulfate/polyacrylamide gels as a polypeptide that was about 5000 daltons larger than the subunit of the mature enzyme (160,000 daltons). The same polypeptide was also obtained by direct immunoprecipitation or by a double-antibody precipitation method. The mature enzyme competed effectively with the in vitro product for interaction with anti-carbamyl phosphate synthetase I antibody. Digestion of the in vitro product by S. aureus protease gave a pattern of peptide fragments similar to that of the mature enzyme. A mitochondrial membrane preparation from rat liver converted the in vitro product into a polypeptide that comigrated with the mature subunit on sodium dodecyl sulfate gel electrophoresis. Similar proteolytic activity was not detected in either a cytosol or a microsomal fraction of rat liver. These results indicate that the enzyme is synthesized as a larger precursor which is converted to the mature form of enzyme by posttranslational processing.
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PMID:Cell-free synthesis and processing of a putative precursor for mitochondrial carbamyl phosphate synthetase I of rat liver. 22 76

Studies were carried out to determine the distribution of the following: (1) carbamoyl phosphate synthetase (EC 2.7.2.9), (2) ornithine carbamoyltransferase (EC 2.1.3.3), (3) argininosuccinate synthetase (EC 6.3.4.5), and (4) argininosuccinate lyase (EC 4.3.2.1) in soybean cells grown in suspension culture. Protoplasts were produced from the soybean cells by treatment with cellulase (EC 3.2.1.4) and pectinase (EC 3.2.1.15); the protoplasts were then ruptured by osmotic shock with distilled water. This treatment was followed by differential centrifugation and sucrose density gradient centrifugation to isolate various organelle fractions including mitochondria and plastids. Examination of these fractions using specific enzyme assays showed that carbamoylphosphate synthetase and ornithine carbamoyltransferase were localized in a fraction found to be composed primarily of plastids. Argininosuccinate synthetase and argininosuccinate lyase appeared to be associated with either the cytosol or a membrane fraction in close association with the cytosol such as the endoplasmic reticulum or protoplast membrane.
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PMID:The localization within plant cells of enzymes involved in arginine biosynthesis. 56 67

The promoter of the gene (CPS) encoding rat carbamyl phosphate synthetase I has been mapped 5' to a segment of about 525 nucleotides upstream from the transcription start point and, when analyzed in liver nuclear extracts, contained six well-defined protein-recognition elements, designated CPS sites I-VI. All six elements were recognized, with varying affinities, by CAAT and enhancer-binding protein (C/EBP alpha) produced in bacteria. Oligodeoxyribonucleotides corresponding to CPS site II or to the C/EBP alpha-recognition element of the ALB promoter, site D, competed with the six CPS-promoter elements in footprinting assays. However, mutagenesis of the C/EBP alpha-recognition element, 5'-GTTGCAAC, at the core of site II was sufficient to abolish transactivation of the CPS promoter by C/EBP alpha in co-transfected HepG2 cells. These findings indicate that the CPS promoter contains multiple recognition elements for factors with DNA-binding specificities similar to C/EBP proteins. Activation by C/EBP alpha, however, requires promoter site II.
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PMID:The carbamyl phosphate synthetase promoter contains multiple binding sites for C/EBP-related proteins. 151 97

We have isolated and sequenced the genomic DNA from the slime-mould Dictyostelium discoideum multi-gene (PYR1-3) encoding the carbamoyl phosphate synthetase II domain (CPSase, EC.6.3.5.5). We describe sequencing by oligo-walking directly on PCR product in the solid-phase, avoiding subcloning procedures. The 2.4 kb fragment completes the sequence of the PYR1-3 gene, has no introns, and has the same structure as the rudimentary gene of Drosophila melanogaster. Comparison with the carbamoyl phosphate synthetases (CPSase I and CPSase II) of other species supports the hypothesis that this gene has arisen by tandem duplication from a smaller common ancestral gene in the progenote.
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PMID:Carbamoyl phosphate synthetase (CPSase) in the PYR1-3 multigene of Dictyostelium discoideum. 162 25

Synthesis of glucose from lactate and generation of urea from ammonia were inhibited when sodium benzoate was added to suspensions of rat hepatocytes. Assays with isolated mitochondria suggested pyruvate carboxylase and the N-acetyl-L-glutamate (NAG)-dependent carbamoylphosphate synthetase (CPS-I) as potential sites of inhibition for both pathways, owing to a shared dependency on aspartate efflux from the mitochondria and its subsequent conversion to oxaloacetate in the cytosol. Assays with isolated hepatocytes indicated inhibition to be initiated by accumulation of benzoyl CoA with a resultant depletion of free CoA and acetyl CoA. Measurements of adenine nucleotides showed that benzoate metabolism did not sufficiently alter energy status to account for the observed inhibition. Consistent with these interpretations, acceleration of the conversion of benzoyl CoA to hippurate by the addition of glycine restored the levels of free CoA and acetyl CoA and the rates of gluconeogenesis and ureagenesis. Reduction of the levels of aspartate and glutamate, presumably by interference with the anapleurotic function of pyruvate carboxylase, most likely accounted for inhibition of gluconeogenesis by benzoate. Whether reduced flux through the urea cycle also contributed to inhibition of gluconeogenesis (by diminishing cytosolic conversion of aspartate to oxaloacetate) requires further study. Depression of glutamate and acetyl CoA to levels at or below the Km for NAG synthetase probably accounted for the observed inhibition of ureagenesis. Rates of urea production were observed to vary with changes in the levels of NAG, suggesting NAG-dependent CPS-I to be the primary site of inhibition of ureagenesis by benzoate.
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PMID:On the mechanism of inhibition of gluconeogenesis and ureagenesis by sodium benzoate. 167 73

The changes of carbamyl phosphate synthetase I (CPS 1) in diethylnitrosamine-(DEN)-induced enzyme-altered liver cells were studied by means of immunohistochemical (PAP) and in situ cDNA-mRNA hybridization methods. The experimental rats were treated with DEN, 2-acetylaminofluorene (2-AAF) and 2/3 hepatectomy according to Solt-Farber's protocol and were further promoted by oral daily administration of 0.05% phenobarbital in drinking water. The results showed that the average number of lesions showing abnormal expression of CPS 1 was relatively constant over the course of the experiment (8 months), while the number of normally expressing lesions gradually decreased. The former lesions were also larger in volume than the latter ones. We conclude that in DEN-initiated lesions the abnormally expressed CPS 1 lesions may grow continuously, thus leading to the formation of larger nodules. We also suspect that some of these lesions have increased tendencies to develop into tumors.
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PMID:The immunohistochemistry and in situ cDNA-mRNA hybridization of carbamyl phosphate synthetase I in enzyme-altered liver cells during carcinogenesis. 237 Dec 60

In order to study the changes of phenotype and gene expression of carbamyl phosphate synthetase I (CPS 1) in preneoplastic altered liver cells in situ, serial cryostat sections of rat liver initiated by diethylnitrosamine (DENO) and promoted by phenobarbital (PB) were hybridized with 35S-GPS 1 cDNA probe by in situ hybridization, and immunohistochemical demonstration (PAP) of CPS 1 were made simultaneously. The results showed that abnormal expression of CPS 1 in the altered foci and nodules increased much more rapidly than that in normal ones, and consequently they might be more susceptable to develop into tumor.
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PMID:[An immunohistochemical and in situ hybridization study of carbamyl phosphate synthetase I in altered liver cells during carcinogenesis]. 238 10

Elasmobranch fishes, the coelacanth, estivating lungfish, amphibians, and mammals synthesize urea by the ornithine-urea cycle; by comparison, urea synthetic activity is generally insignificant in teleostean fishes. It is reported here that isolated liver cells of two teleost toadfishes, Opsanus beta and Opsansus tau, synthesize urea by the ornithine-urea cycle at substantial rates. Because toadfish excrete ammonia, do not use urea as an osmolyte, and have substantial levels of urease in their digestive systems, urea may serve as a transient nitrogen store, forming the basis of a nitrogen conservation shuttle system between liver and gut as in ruminants and hibernators. Toadfish synthesize urea using enzymes and subcellular distributions similar to those of elasmobranchs: glutamine-dependent carbamoyl phosphate synthethase (CPS III) and mitochondrial arginase. In contrast, mammals have CPS I (ammonia-dependent) and cytosolic arginase. Data on CPS and arginases in other fishes, including lungfishes and the coelacanth, support the hypothesis that the ornithine-urea cycle, a monophyletic trait in the vertebrates, underwent two key changes before the evolution of the extant lungfishes: a switch from CPS III to CPS I and replacement of mitochondrial arginase by a cytosolic equivalent.
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PMID:Evolution of urea synthesis in vertebrates: the piscine connection. 256 72

Carbamyl phosphate (CP) is synthesized in the liver by two separate enzymes, CPS I and CPS II. CPS I, an intramitochondrial enzyme involved in ureogenesis, has a relative activity of 500- to 1000-fold greater than CPS II, a cytoplasmic enzyme which initiates the sequence of reactions for pyrimidine biosynthesis. The contributions of NH4Cl (substrate for CPS I) ang glutamine (substrate for CPS II) as precursors for pyrimidine biosynthesis in isolated hepatocytes were compared by measuring their effect on uracil nucleotide pool size, the incorporation of NaH14CO3 into these pools, and the accumulation of orotic acid. Physiological concentrations of NH4Cl caused a marked stimulation of incorporation of radioactivity into uracil nucleotides (6-fold increase at 0.5 mM NH4Cl), and radioactive orotate appeared in both the cells and the medium. In contrast, glutamine (at concentrations up to 10 mM) had no effect on the incorporation of radioactivity into uracil nucleotides, and no orotic acid was detected. Uracil nucleotide pools were expanded up to 50% by low levels of NH4Cl, but there was no expansion of this pool in the presence of added glutamine. NH4Cl-driven pyrimidine de novo biosynthesis was insensitive to feedback inhibition by an expanded uracil nucleotide pool, to galactosamine treatment, and to acivicin treatment, indicating that NH+4 stimulated pyrimidine biosynthesis as a result of CP synthesis by mitochondrial CPS I. The consequence of intramitochondrially produced CP being available for pyrimidine biosynthesis is that the controlling step of this pathway (CPS II) is bypassed. The appearance of orotic acid following NH4Cl stimulation indicated that the rate-controlling step of hepatic de novo pyrimidine synthesis under these conditions was orotate phosphoribosyl transferase. These data indicate that, at physiological concentrations of NH+4, the majority of uracil nucleotides synthesized in isolated rat hepatocytes was derived from intramitochondrially generated CP. The effect of NH4Cl on the output of uridine by the isolated perfused rat liver was examined. In the presence of a single addition of 20 mM NH4Cl, the excretion of uridine was increased from 100-200 to 375 nmol h-1 g-1 liver and orotic acid was released into the circulating perfusate reaching a maximum of 2 microM (in 220 ml of perfusate) after 2 h. With 40 mM NH4Cl, uridine export was increased to 450 nmol h-1 g-1 and a maximum of 5 microM orotic acid was released into the perfusate after 2 h.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Influence of ammonium ions on hepatic de novo pyrimidine biosynthesis. 298 2

The carAB operon, encoding carbamoylphosphate synthetase (CPSase; EC 6.3.5.5) is transcribed from two tandem promoters. The upstream promoter (P1) is controlled by pyrimidines and the downstream promoter (P2) is controlled by arginine. We have isolated a new type of constitutive mutation (carP) that specifically affects the control of the pyrimidine-sensitive promoter but does not appear to influence other genes of the pyrimidine pathway. The carP mutation acts in trans and is dominant, which suggests that the carP product is an activator of car transcription. The downstream promoter P2, which is repressed by arginine, overlaps two operator modules characteristic of the arginine regulon. We have isolated two operator-constitutive mutations that specifically affect P2; both map in the upstream ARG box at a strongly conserved position.
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PMID:carP, a novel gene regulating the transcription of the carbamoylphosphate synthetase operon of Escherichia coli. 306 18

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