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)

Dihydroorotase (DHOase) catalyzes the third step in eukaryotic de novo pyrimidine biosynthesis. In mammalian cells, this enzyme activity is carried by a large chimeric protein, CAD, that also catalyzes the first two steps in the pathway: glutamine-dependent carbamyl phosphate synthetase (CPSase) and aspartate transcarbamylase (ATCase). Controlled elastase cleavage of CAD released a 44,000 +/- 2,000-dalton proteolytic fragment which catalyzed only the dihydroorotase reaction. We have devised a rapid and simple method for the isolation of the DHO domain from elastase digests. The domain, which was obtained in 36% yield, was found to be homogeneous by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and isoelectric focusing. The domain was also characterized by amino acid analysis and analytical high pressure liquid chromatography peptide mapping. The amino terminus of both the DHO domain and intact CAD was blocked suggesting that this domain is located at the extreme amino terminus of the CAD polypeptide, a result consistent with the suspected juxtaposition of domains as DHO-CPS-ATC. The isoelectric point of the DHO domain was 5.1, while that of the ATC domain was 9.4, so that the ends of the CAD polypeptide are oppositely charged at physiological pH. Immunoblotting with DHO domain-specific antibodies showed that a 47-kDa species was generated in the early stages of controlled proteolysis of CAD. Thus there are two elastase cleavage sites within a 3-kDa connecting region that links the DHO and CPS domains. The domain was shown by atomic absorption spectrophotometry and by isolating a 65Zn-containing DHO domain from mammalian cells grown in the presence of the radionuclide to contain 1 g eq of tightly bound zinc in each polypeptide chain. Zinc was not found in any other CAD domain. Chelating agents inhibit dihydroorotase activity of the isolated domain supporting the conclusion, based on studies of intact CAD by others, that zinc participates in catalysis. At moderate protein concentrations the DHO domain was a 88,000 dimer with a Stokes radius of 37.6 A, a S20,w = 5.1 X 10(-13) s, a diffusion coefficient of 3.17 X 10(-7) cm2 s-1, and a frictional ratio of 1.26. On dilution the dimer dissociated and was in rapid concentration-dependent equilibrium with a 43,500 monomer. The hydrodynamic parameters of the monomer have also been estimated (Stokes radius of 29.8 A, D20,w = 4.11 X 10(-7) cm2 s-1, and f/f0 1.21).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The dihydroorotase domain of the multifunctional protein CAD. Subunit structure, zinc content, and kinetics. 287 Oct 22

The organization of the enzymes of de novo pyrimidine nucleotide biosynthesis in pea (Pisum sativum L. cv Progress No. 9) has been studied. The first three enzymes of the pathway, carbamoyl-phosphate synthetase, aspartate carbamoyltransferase, and dihydroorotase, are readily separable from one another; they are not part of a multifunctional complex. The final two activities of the pathway, orotate phosphoribosyltransferase and orotidylate decarboxylase, copurify and appear to be complexed in vivo. This organizational pattern is distinct from those reported for bacteria, yeast, and mammals. The differences in organization, in a pathway which is present in all organisms, make the pyrimidine biosynthetic pathway a very interesting candidate for evolutionary studies.
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PMID:Organization of the pathway of de novo pyrimidine nucleotide biosynthesis in pea (Pisum sativum L. cv Progress No. 9) leaves. 287 81

CAD codes for a trifunctional protein involved in the catalysis of the first three enzymatic activities in the de novo pyrimidine biosynthetic pathway, namely, carbamoyl-phosphate synthetase II (EC 6.3.5.5), aspartate transcarbamylase (EC 2.1.3.2), and dihydroorotase (EC 3.5.2.3). CAD regulation was studied in the human promyelocyte leukemic line HL-60 as it differentiated into monocytic or granulocytic lineages after induction by 12-O-tetradecanoylphorbol-13-acetate or trans-retinoic acid and dibutyryl cyclic AMP, respectively. Within 12 h of induction of HL-60 cells with either inducer, total cellular levels of CAD RNA essentially disappeared. On the other hand, no apparent decreases in beta-actin RNA levels were seen even 48 h after HL-60 cells were induced, as compared with untreated cells. With nuclear runoff assays, it was clearly shown that the inactivation of CAD gene expression during the induction of HL-60 cells with either inducer was at the transcriptional level. The nuclear runoff experiments also demonstrated that the CAD gene expression was shut down in less than 4 h after induction, well before morphological changes were observed in these cells. At the enzymatic level, the activity of aspartate transcarbamylase, one of the three enzymes encoded by the CAD gene, decreased by about half within 24 h of induction, suggesting a CAD protein half-life of 24 h in differentiating HL-60 cells. Nevertheless, this means that significant levels of aspartate transcarbamylase activity remained even after the cells have stopped proliferating. From the RNA data, it is clear that CAD gene expression is rapidly turned off as promyelocytes begin to terminally differentiate into macrophages and granulocytes. We suspect that the inactivation of the CAD gene in induced HL-60 cells is a consequence of the differentiating cells leaving the cell cycle and becoming nonproliferating.
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PMID:Transcriptional regulation of the human CAD gene during myeloid differentiation. 288 43

We have studied the regulation of expression of the carbamoyl-phosphate synthetase II-aspartate transcarbamylase-dihydroorotase gene in F9 teratocarcinoma cells during their differentiation into parietal endoderm cells by induction with a combination of retinoic acid and dibutyryl cyclic AMP. Steady-state levels of CAD mRNA decreased by 7-fold in F9 cells following 120 h of retinoic acid and dibutyryl cyclic AMP induction as compared to levels in uninduced cells. Conversely, no apparent changes were found in the steady-state levels of beta-actin mRNA between induced and uninduced cells. Despite a 7-fold decrease in the steady-state levels of CAD mRNA, its rate of transcription remained the same between induced and uninduced cells, indicating a role for posttranscriptional mechanisms for its down regulation during retinoic acid- and dibutyryl cyclic AMP-induced differentiation of F9 cells. The cellular growth rate of F9 cells as determined by [3H]thymidine uptake and parallel cell counting decreased markedly during their induction with retinoic acid and dibutyryl cyclic AMP. Taken together, it is apparent that the expression of the CAD gene is cell-growth-dependent and its regulation in this system is at the posttranscriptional level.
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PMID:Posttranscriptional regulation of the expression of CAD gene during differentiation of F9 teratocarcinoma cells by induction with retinoic acid and dibutyryl cyclic AMP. 289 7

Charomids are cosmid vectors up to 52 kilobases (kb) long, bearing 1-23 copies of a 2-kb spacer fragment linked in head-to-tail tandem arrays. Like cosmids and lambda phage, charomids can be packaged in vitro for efficient introduction into bacteria. Charomids contain a polylinker with nine unique restriction sites for cloning and can be used without preparing vector arms. Using a charomid of appropriate size, one can clone inserts of any size up to 45 kb. For example, charomid 9-36 (9 cloning sites, 36 kb long) is too small to be packaged efficiently without an insert and can be used to clone fragments of 2-16 kb. The structure of charomids facilitates restriction mapping of the insert DNA and, after cloning, all the spacer fragments can be removed easily. After enrichment by size fractionation in an agarose gel, a specific single-copy genomic sequence can be cloned rapidly from approximately 3 micrograms of DNA. Using charomid 9-36, we have cloned and mapped an amplified novel DNA fragment from a cell line resistant to N-(phosphonoacetyl)-L-aspartate and carrying about 100 copies of the CAD (carbamoyl-phosphate synthetase/aspartate carbamoyltransferase/dihydroorotase) gene. The fragment lies at the center of an inverted duplication of this gene.
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PMID:Charomids: cosmid vectors for efficient cloning and mapping of large or small restriction fragments. 302 1

Yeast URA2 encodes a multifunctional carbamoyl phosphate synthetase-aspartate transcarbamylase of 220,000 molecular weight. We determined the nucleotide sequence of the 5' proximal part of the gene which is responsible for the glutamine amide transfer function of the carbamoyl phosphate synthetase activity. Alignment of the enzyme sequence derived from URA2 with sequences from Escherichia coli carA carB and yeast arginine-specific CP A1 CP A2 indicates that monofunctional and bifunctional carbamoyl phosphate synthetases are probably homologous. The URA2-derived enzyme organization is NH2-carbamoyl phosphate synthetase-aspartate transcarbamylase-CO2H.
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PMID:Nucleotide sequence of the pyrimidine specific carbamoyl phosphate synthetase, a part of the yeast multifunctional protein encoded by the URA2 gene. 303 94

The in vivo actions of two antimetabolites, acivicin (NSC-163501) and tiazofurin (NSC-286193), were examined on the enzymic programs of rat bone marrow. From the bone marrow of the femurs, 100,000 g supernatant fractions were prepared; enzymic activities were measured by isotopic assays, and cellularity was determined. In the normal bone marrow, the specific activities of pyrimidine de novo synthetic enzymes, CDP reductase, dTMP synthase, CTP synthase, carbamoyl-phosphate synthase II (synthase II), orotidine 5'-phosphate decarboxylase and aspartate carbamoyltransferase, were 1, 2.7, 5, 10, 63 and 601 nmol/hr/mg protein, respectively, whereas those of the salvage enzymes, deoxycytidine, thymidine, cytidine and uridine kinases were 3, 43, 149, and 367 nmol/hr/mg protein, respectively. In purine biosynthesis, the activities of the de novo synthetic enzymes, IMP dehydrogenase, formylglycinamidine ribonucleotide (FGAM) synthase, GMP synthase, amidophosphoribosyl-transferase (AT) and adenylosuccinate synthase were 16, 8, 107, 78 and 124 nmol/hr/mg protein, respectively, and those of the salvage enzymes, adenine, hypoxanthine and guanine phosphoribosyl-transferases, were 340, 407, and 1018 nmol/hr/mg protein, respectively. The sequence of events was elucidated after a single i.p. injection of acivicin (5 mg/kg) or tiazofurin (200 mg/kg). Within 2 hr after acivicin injection, CTP, GMP and FGAM synthases lost 85-90%, while AT and synthase II lost 50 and 80%, respectively, of their activities. The activities rose to near normal range by 72-96 hr. The bone marrow cellularity decreased, reaching a nadir at 24 and 48 hr, and returning to normal range by 72 and 92 hr; thymidine kinase activity followed a similar pattern. Tiazofurin injection depressed IMP dehydrogenase activity to 20% by 2 hr with a rebound to normal range by 48 and 72 hr. The cellularity decreased more slowly, reaching its lowest point at 24 hr and returning to normal range at 72 hr. For acivicin the marked depletion of the activities of the glutamine-utilizing enzymes and for tiazofurin that of IMP dehydrogenase might account, in part at least, for the bone marrow toxicity of these antimetabolites. Because of the presence in the bone marrow of high activities of purine and pyrimidine salvage enzymes, it should be possible to design methods utilizing nucleosides and nucleobases to protect the bone marrow from the action of antimetabolites.
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PMID:Enzymic programs of rat bone marrow and the impact of acivicin and tiazofurin. 334

We have examined the domain organization, and the locations of the sites phosphorylated by the cyclic-AMP-dependent protein kinase, in the multifunctional polypeptide of the pyrimidine-biosynthetic protein, CAD. Fragments produced after limited proteolysis by elastase or trypsin were separated by SDS/polyacrylamide gel electrophoresis and transferred onto nitrocellulose. The blots were probed with antibodies raised against the core aspartate carbamoyltransferase (ACTase) and dihydroorotase (DHOase) fragments to locate fragments containing these domains, and we also examined the locations of the phosphorylation sites by complete tryptic digestion of blotted, 32P-labelled fragments, followed by analytical isoelectric focussing. Our results are consistent with the domain order glutaminase(GLNase)-carbamoyl-phosphate synthetase-(CPSase)-DHOase-ACTase, as suggested by recently reported homologies between the predicted amino acid sequence for the Drosophila rudimentary gene product, and monofunctional CPSases/ACTases/DHOases. In particular, the finding of a 95-kDa elastase fragment which cross-reacted with both anti-DHOase and anti-ACTase antibodies rules out the previously suggested domain order: DHOase-GLNase-CPSase-ACTase. Phosphorylation by cyclic-AMP-dependent protein kinase accelerates cleavage of native CAD by both elastase and trypsin, and abolishes the protective effect of UTP. Site 1 is located close to the C-terminal end of the 160-kDa GLNase/CPSase region. Comparison with the predicted amino acid sequence of the Drosophila rudimentary gene revealed a strong homology between the tryptic peptide containing site 1 from hamster CAD, and a region at the extreme C-terminal end of the CPSase II domain of the Drosophila enzyme. Alignment of the Drosophila sequence and that of rat liver CPSase I, which is not phosphorylated by cyclic-AMP-dependent protein kinase, revealed that this putative site 1 region is missing in CPSase I. Site 2 could not be located with certainty, either from the limited proteolysis data, or from comparison of the sequence around this site and the sequence of the rudimentary gene. There were also one or more previously undetected minor phosphorylation site(s) located in the protease-sensitive hinge region between the DHOase and ACTase domains.
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PMID:Mapping of catalytic domains and phosphorylation sites in the multifunctional pyrimidine-biosynthetic protein CAD. 334 46

In Crithidia fasciculata, carbamoyl phosphate synthetase II, which catalyses the first step of de novo pyrimidine biosynthesis, was separated from aspartate carbamoyltransferase by ammonium sulfate fractionation. The antitumor drug acivicin competitively inhibited the synthetase II activity with respect to L-glutamine, yielding an apparent Ki of 2 microM. In the absence of L-glutamine, acivicin resulted in a selective, time-dependent inactivation of L-glutamine-dependent activity of the enzyme, with an inactivation constant (Kinact) of 100 microM and a minimum inactivation half-time (T) of 0.2 min. L-Glutamine protected the enzyme from inactivation. These results are consistent with a postulate that acivicin is an active site-directed affinity analogue of L-glutamine, achieving irreversible inactivation. The inactivated enzyme retained ammonia-dependent activity. Acivicin stimulated the ammonia-dependent activity by increasing the Vmax value of the enzyme; apparent Km values for ammonia and MgATP were not affected. Differential action of acivicin on the Crithidia and mammalian synthetase II is discussed.
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PMID:Inactivation of Crithidia fasciculata carbamoyl phosphate synthetase II by the antitumor drug acivicin. 357 57

A high specific activity of carbamoyl-phosphate synthetase II (glutamine-hydrolyzing; EC 6.3.5.5) was demonstrated in extract of the cultured Crithidia fasciculata. The enzyme was separated from aspartate carbamoyltransferase by ammonium sulfate fractionation. Apparent Km for the synthetase for L-glutamine, NH4+, MgATP or bicarbonate was 0.27, 26, 1.7 or 1.7 mM at 2.0% dimethyl sulfoxide plus 0.3% glycerol. 8.6% dimethyl sulfoxide plus 1.4% glycerol decreased Km for L-glutamine to 0.10 mM, while Km for MgATP was unaffected. The higher solvent concentrations made Vmax markedly reduced, yielding the inhibition of the activity. These properties are unique to the Crithidia synthetase, compared with the mammalian enzyme.
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PMID:Kinetic properties of carbamoyl-phosphate synthetase II (glutamine-hydrolyzing) in the parasitic protozoan Crithidia fasciculata and separation of the enzyme from aspartate carbamoyltransferase. 360 29


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