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 formation of a highly organized vascular and corneal endothelial cell monolayer is associated with the appearance of a 60,000-dalton cell surface protein (CSP-60) (30,000 daltons after reduction with dithiothreitol) which is not detectable in rapidly growing endothelial cells and in subconfluent cultures that do not yet exhibit the strict morphology of a confluent monolayer. It is also absent from vascular smooth muscle cells and from endothelial cultures that are maintained in the absence of fibroblast growth factor and grow on top of each other at confluence. After disorganization of cells in a confluent endothelial monolayer by urea, EDTA, or trypsin, CPS-60 is no longer exposed on the cell surface, but it reappears as soon as the cells readopt their characteristic two-dimensional configuration. This reorganization can be achieved in the presence of cycloheximide and despite removal of fibronectin by urea, EDTA, or trypsin. Maximal amounts of fibronectin and no CSP-60 are detected in subconfluent, but not yet organized, endothelial cultures or in endothelial cells that no longer form a monolayer of nonoverlapping cells at confluence. Likewise, cultures of vascular smooth muscle cells contain fibronectin but no CSP-60. These results suggest that CSP-60, rather than fibronectin, could be involved in the adoption of a monolayer configuration by confluent endothelial cells.
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PMID:Appearance in confluent vascular endothelial cell monolayers of a specific cell surface protein (CSP-60) not detected in actively growing endothelial cells or in cell types growing in multiple layers. 28 73

Mammalian DHOase (S-dihydroorotate amidohydrolase, EC 3.5.2.3) is part of a large multifunctional protein called CAD, which also has a carbamoyl-phosphate synthetase [carbon-dioxide: L-glutamine amido-ligase (ADP-forming, carbamate-phosphorylating), EC 6.3.5.5] and aspartate transcarbamoylase (carbamoyl-phosphate: L-aspartate carbamoyltransferase, EC 2.1.3.2) activities. We sequenced selected restriction fragments of a Syrian hamster CAD cDNA. The deduced amino acid sequence agreed with the sequence of tryptic peptides and the amino acid composition of the DHOase domain isolated by controlled proteolysis of CAD. Escherichia coli transformed with a recombinant plasmid containing the cDNA segment 5' to the aspartate transcarbamoylase coding region expressed a polypeptide recognized by DHOase domain-specific antibodies. Thus, the order of domains within the polypeptide is NH2-carbamoyl-phosphate synthetase-DHO-aspartate transcarbamoylase-COOH. The 334-residue DHOase domain has a molecular weight of 36,733 and a pI of 6.1. A fragment of CAD having DHOase activity that was isolated after trypsin digestion has extensions on both the NH2 (18 residues) and COOH (47-65 residues) termini of this core domain. Three of five conserved histidines are within short, highly conserved regions that may participate in zinc binding. Phylogenetic analysis clustered the monofunctional and fused DHOases separately. Although these families may have arisen by convergent evolution, we favor a model involving DHOase gene duplication and insertion into an ancestral bifunctional locus.
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PMID:Mammalian dihydroorotase: nucleotide sequence, peptide sequences, and evolution of the dihydroorotase domain of the multifunctional protein CAD. 196 94

The large subunit of Escherichia coli carbamoyl phosphate synthetase (a polypeptide of 117.7 kDa that consists of two homologous halves) is responsible for carbamoyl phosphate synthesis from NH3 and for the binding of the allosteric activators ornithine and IMP and of the inhibitor UMP. Elastase, trypsin, and chymotrypsin inactivate the enzyme and cleave the large subunit at a site approximately 15 kDa from the COOH terminus (demonstrated by NH2-terminal sequencing). UMP, IMP, and ornithine prevent this cleavage and the inactivation. Upon irradiation with ultraviolet light in the presence of [14C]UMP, the large subunit is labeled selectively and specifically. The labeling is inhibited by ornithine and IMP. Cleavage of the 15-kDa COOH-terminal region by prior treatment of the enzyme with trypsin prevents the labeling on subsequent irradiation with [14C]UMP. The [14C]UMP-labeled large subunit is resistant to proteolytic cleavage, but if it is treated with SDS the resistance is lost, indicating that UMP is cross-linked to its binding site and that the protection is due to conformational factors. In the presence of SDS, the labeled large subunit is cleaved by trypsin or by V8 staphylococcal protease at a site located 15 or 25 kDa, respectively, from the COOH terminus (shown by NH2-terminal sequencing), and only the 15- or 25-kDa fragments are labeled. Similarly, upon cleavage of the aspartyl-prolyl bonds of the [14C]UMP-labeled enzyme with 70% formic acid, labeling was found only in the 18.5-kDa fragment that contains the COOH terminus of the subunit. Thus, UMP binds to the COOH-terminal domain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Domain structure of the large subunit of Escherichia coli carbamoyl phosphate synthetase. Location of the binding site for the allosteric inhibitor UMP in the COOH-terminal domain. 198 78

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

Independently folded structural domains of rat liver carbamoyl phosphate synthetase I have been identified by partial proteolytic cleavage under nondenaturing conditions. The pattern of fragments produced was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The NH2-terminal sequences of the fragments were determined by automated Edman degradation. Comparison of these fragment sequences with the sequence of the intact protein allowed alignment of the fragments. The hydrolysis of carbamoyl phosphate synthetase I (Mr 160,000) by either trypsin or elastase proceeded in two stages, with two alternative routes of degradation for elastase. The alignment of the final tryptic fragments from the NH2 terminus to the COOH terminus was: Mr 87,000 fragment-Mr 62,000 fragment-group of small peptides. The alignment of the final elastase fragments was: Mr 37,000 fragment-Mr 108,000 fragment-group of small peptides. The rates of cleavage were affected by the presence of the substrate ATP or the positive allosteric effector N-acetylglutamate; the preferred route of elastase cleavage was also affected. In addition to providing a map of the carbamoyl phosphate synthetase I domains and preliminary information on the interaction of substrates with these domains, the present studies provide further support for the proposal that domains serve as units of protein evolution since the 37-kDa fragment encompasses the region of the rat liver synthetase that is homologous to the 40-kDa subunit of the Escherichia coli synthetase.
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PMID:Domain structure of rat liver carbamoyl phosphate synthetase I. 349 Oct 68

Improved methodologies are described which allow the measurement of the part-reactions, with glutamine or ammonia as nitrogen donor, of mammalian carbamoyl-phosphate synthase II (EC 6.3.5.5) through the incorporation of [14C]bicarbonate into either carbamoyl phosphate or carbamoylaspartate. The enzyme is part of the multifunctional polypeptide (CAD) which also comprises the pyrimidine-biosynthetic enzymes aspartate transcarbamoylase (EC 2.1.3.2) and dihydro-orotase (EC 3.5.2.3). The conformational stability of the carbamoyl-phosphate synthase was investigated through the inactivation of the part-reactions which occurred during incubation at 37 degrees C. The domain involved in the removal of the amide N from glutamine was more thermolabile than the ammonia-dependent synthase moiety. The former activity was stabilized in the presence of sodium aspartate or MgATP, whereas the latter was stabilized by MgATP and MgUTP. Binding of MgUTP and MgATP to CAD restricted the initial proteolysis by trypsin and elastase of one or both regions linking the carbamoyl-phosphate synthase domain to the other major domains. A model is described to account for both aspects of nucleotide binding to CAD; these stabilizing effects may be important in the cell, where similar concentrations of nucleotides are found.
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PMID:Nucleotide ligands protect the inter-domain regions of the multifunctional polypeptide CAD against limited proteolysis, and also stabilize the thermolabile part-reactions of the carbamoyl-phosphate synthase II domains within the CAD polypeptide. 363 65

When the multifunctional protein that catalyses the first three steps of pyrimidine biosynthesis in hamster cells is treated with staphylococcal V8 proteinase, a single cleavage takes place. The activities of carbamoyl-phosphate synthetase (EC 6.3.5.5), aspartate carbamoyltransferase (EC 2.1.3.2) and dihydro-orotase (EC 3.5.2.3) and the allosteric inhibition by UTP are unaffected. One fragment, of Mr 182000, has the first and third enzyme activities, whereas the other fragment, of Mr 42000, has aspartate carbamoyltransferase activity and an aggregation site. A similar small fragment is observed in protein digested with low concentrations of trypsin. A similar large fragment is seen after digestion with trypsin and as the predominating form of this protein in certain mutants defective in pyrimidine biosynthesis. These results indicate that a region located adjacent to the aspartate carbamoyltransferase domain is hypersensitive to proteinase action in vitro and may also be sensitive to proteolysis in vivo.
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PMID:Organization of a multifunctional protein in pyrimidine biosynthesis. A domain hypersensitive to proteolysis. 636 86

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)
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PMID:Mapping the structural domains of E. coli carbamoyl phosphate synthetase using limited proteolysis. 764 1

We have demonstrated biochemically that the conformation of the proteolytic fragment (mammalian aspartate transcarbamoylase) from the C-terminus of the 240-kDa multienzyme polypeptide carrying the activities carbamoyl phosphate synthetase II, aspartate transcarbamoylase and dihydroorotase (CAD) is similar to that of the catalytic subunits from Escherichia coli aspartate transcarbamoylase. We have measured the extent of unfolding of the mammalian aspartate transcarbamoylase in guanidinium chloride solutions, and have also demonstrated that the protein cross-reacts with antibodies raised against the E. coli enzyme. CAD is digested by low concentrations of trypsin in the presence of 0.2 mM UTP to release an active aspartate transcarbamoylase domain and a 195-kDa 'nicked CAD' molecule containing active carbamoyl phosphate synthetase. These two products are easily separated by ion-exchange chromatography. Similar proteolytic cleavage and trimming by elastase releases a family of aspartate transcarbamoylase fragments. Direct N-terminal sequencing of the aspartate transcarbamoylase fragments confirms predictions of the most accessible residues in the region linking the aspartate transcarbamoylase and dihydroorotase domains. Only the largest of the four fragments generated by elastase retains phosphorylation site 2. When this largest fragment is phosphorylated, the family of aspartate transcarbamoylase fragments is eluted together from ion-exchange columns in a different fraction from the completely unphosphorylated preparation, demonstrating the affinity of the domains for each other.
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PMID:Proteolytic cleavage of the multienzyme polypeptide CAD to release the mammalian aspartate transcarbamoylase. Biochemical comparison with the homologous Escherichia coli catalytic subunit. 795 21

Klebsiella pneumoniae was cultured followed by the preparation and immunoactivity elucidating of its polysaccharide (CPS). The lysis of cell is the first key step in the preparation, under the co-action of trypsin, lysozyme and NP-40, the cell lysed within 2h, then the lysate was concentrated by ultrafiltration which serves as concentrating and partial purifying action simultaneously. Crude CPS was got by ethanol precipitation, then purified through the Ion-exchange and gel filtration, the purity of CPS was judged by the gel filtration and agarose gel electrophoresis. The effect of CPS on the cell immunoactivity was studied in detail, the results show that CPS possesses bidirectional immunoregulation on the spleen cells of mice, that is, low concentration of CPS can stimulate the immune response while the high concentration manifests the inhibition significantly. The investigation results will benefit on the exploitation of the CPS.
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PMID:[Extraction and purification of the Klebsiella pneumoniae capsular polysaccharide and the effection on the cell immunoactivity]. 1610 75


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