EC:4.1.1.6 - FACTA Search

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

Query: EC:4.1.1.6 (CAD)
4,420 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have measured the 'core' mammalian carbamoyl-phosphate synthetase II (CPSII) activity, using NH4Cl as the nitrogen-donating substrate and trapping carbamoyl phosphate as urea through its reaction with ammonium ions. When ATP and magnesium ion concentrations are close to those found in the cell, the substrate saturation curves for ammonia and bicarbonate are hyperbolic, giving Km (NH3) values of 166 microM at high ATP concentrations and 26 microM at low ATP concentrations, while the Km (bicarbonate) is 1.4 mM at both ATP concentrations used. These values for the Km (NH3) are lower than previously reported for CPS II, and closer to the values for the mitochondrial counterpart. The Km for ammonia and bicarbonate are not altered by phosphorylation of the multienzyme polypeptide CAD, which contains the first three enzyme activities of pyrimidine biosynthesis. The CPS II activity is lower with an excess of either ATP or magnesium ions, causing the apparently sigmoid dependence of activity upon ATP concentration to be enhanced at low concentrations of free magnesium ions. The feedback inhibitor, UTP, acts by stabilising a state with a low affinity for magnesium ions and for ATP. In the presence of the activator, 5-phosphoribosyl diphosphate (PRibPP), the enzyme has a higher affinity for magnesium ions and thus the ATP dependence of the activity is hyperbolic. Phosphorylation of CAD similarly activates the CPS II enzyme by increasing the affinity for magnesium ions and by pushing the equilibrium away from the low-affinity UTP-stabilised state. Using our improved assay procedure, we observe a very large activation by PRibPP of carbamoylphosphate synthesis at low concentrations of magnesium ions, and we find that unlike UTP, the activator PRibPP is able to act on the phosphorylated enzyme.
...
PMID:Regulation of the mammalian carbamoyl-phosphate synthetase II by effectors and phosphorylation. Altered affinity for ATP and magnesium ions measured using the ammonia-dependent part reaction. 149 69

Laboratory-manufactured gold, ceramic and composite inlays were compared with the CAD/CAM produced CEREC inlay experimentally and clinically. The following systems were examined: Dicor, Optec, Hi-Ceram, Du-Ceram, Cerec, Kulzer, Coltene, SR-Isosit composite inlays, and gold inlays (Degulor C) with adhesive fixation (group I) and with zinc oxide phosphate cement (group II). In the clinical trial inlays in 270 teeth were re-evaluated in a total of 73 patients after 2.3 to 5 years. After 3 years the results obtained with Optec, Hi-Ceram and the Coltene composite inlay were less favorable than those of other systems--statistically however, this difference was of rather low significance (p less than 0.05). Fractures of ceramic inlays occurred in 6 cases within 8 months. 10 failures of ceramic and composite inlays were due to secondary caries.
...
PMID:[Clinical results and material behavior of composite, ceramic and gold inlays]. 161 71

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.
...
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

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 signal transmission. Nevertheless, switching prokaryotic and eukaryotic allosteric controls argues for remarkable conservation of structure and regulatory mechanisms in this family of proteins.
...
PMID:Identification of the regulatory domain of the mammalian multifunctional protein CAD by the construction of an Escherichia coli hamster hybrid carbamyl-phosphate synthetase. 752 61

A plasmid that included both an 8.9 kb chromosomal DNA insert containing genes from the rfb cluster of Shigella dysenteriae 1 and a smaller insert containing the rfp gene from a S. dysenteriae 1 multicopy plasmid resulted in efficient expression of O antigen in an rfb-deleted strain of Escherichia coli K-12. Eight genes were identified in the rfb fragment: the rfbB-CAD cluster which encodes dTDP-rhamnose synthesis, rfbX which encodes a hydrophobic protein involved in assembly of the O antigen, rfc which encodes the O antigen polymerase, and two sugar transferase genes. The production of an O antigen also required the E. coli K-12 rfe gene, which is known to encode a transferase which adds N-acetylglucosamine phosphate to the carrier lipid undecaprenol phosphate. Thus Rfe protein appears to function as an analogue of the Salmonella RfbP protein to provide the first sugar of the O unit. Functional analysis of the other genes was facilitated by the fact that partial O units of one, two or three sugars were efficiently transferred to the lipopolysaccharide core. This analysis indicated that the plasmid-encoded Rfp protein is the transferase that adds the second sugar of the O unit while the two rfb transferases add the distal sugars to make an O antigen whose structure is (Rha-Rha-Gal-GlcNAc)n. The use of the rfe gene product as the transferase that adds the first sugar of an O unit is a novel mechanism which may be used for the synthesis of other enteric O antigens.
...
PMID:Function of the rfb gene cluster and the rfe gene in the synthesis of O antigen by Shigella dysenteriae 1. 769 19

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.
...
PMID:Molecular studies on an ancient gene encoding for carbamoyl-phosphate synthetase. 838 76

Carbamoyl phosphate is the product of carbamoyl phosphate synthetase (CPS II) activity and the substrate of the aspartate transcarbamoylase (ATCase) activity, each of which is found in CAD, a large 240-kDa multienzyme polypeptide in mammals that catalyses the first three steps in pyrimidine biosynthesis. In our study of the transfer of the labile intermediate between the two active sites, we have used assays that differentiate the synthesis of carbamoyl phosphate from the overall reaction of CPS II and ATCase that produces carbamoyl aspartate. We provided excess exogenous carbamoyl phosphate and monitored its access to the respective active sites through the production of carbamoyl phosphate and carbamoyl aspartate from radiolabelled bicarbonate. Three features indicate interactions between the folded CPS II and ATCase domains causing reciprocal conformational changes. First, even in the presence of approximately 1 mM unlabelled carbamoyl phosphate, when the aspartate concentration is high ATCase uses endogenous carbamoyl phosphate for the synthesis of radiolabelled carbamoyl aspartate. In contrast, the isolated CPS II forward reaction is inhibited by excess unlabelled carbamoyl phosphate. Secondly, the affinity of the ATCase for carbamoyl phosphate and aspartate is modulated when substrates bind to CPS II. Thirdly, the transition-state analogue phosphonacetyl-L-aspartate is a less efficient inhibitor of the ATCase when the substrates for CPS II are present. All these effects operate when CPS II is in the more active P state, which is induced by high concentrations of ATP and magnesium ions and when 5'-phosphoribosyl diphosphate (the allosteric activator) is present with low concentrations of ATP; these are conditions that would be met during active biosynthesis in the cell. We propose a phenomenon of reciprocal allostery that encourages the efficient transfer of the labile intermediate within the multienzyme polypeptide CAD. In this model, binding of aspartate to the active site of ATCase causes a conformational change at the active site of the liganded form of CPS II, which protects it from inhibition by its product, carbamoyl phosphate; reciprocally, the substrates for CPS II affect the active site of ATCase by increasing the affinity for its substrates, endogenous carbamoyl phosphate and aspartate, and thus impede access of exogenous carbamoyl phosphate or the transition-state analogue. Reciprocal allostery justifies the close association of the enzyme activities within the polypeptide and ensures that carbamoyl phosphate is efficiently synthesised and is dedicated to the second step of pyrimidine biosynthesis. These conditions fulfill those required for metabolic channeling in the cell.
...
PMID:A reciprocal allosteric mechanism for efficient transfer of labile intermediates between active sites in CAD, the mammalian pyrimidine-biosynthetic multienzyme polypeptide. 928 32

North American dental schools were surveyed to determine the types of clinical experiences and the extent of material use that predoctoral students encounter with restorative procedures that employ all-ceramic materials. The results were based on an overall response rate of 80% from the 64 surveyed schools. The majority (96%) of the 51 schools responding to the survey did offer an opportunity to become experienced with all-ceramic restorations. The selection of bases and liners for all-ceramic restorations included dentin adhesive agents, glass ionomer materials, and calcium hydroxide products, by a ratio of 5:4:1, respectively. The most commonly used impression material types were addition silicone and polyether. One or both of these materials were used by every school. Dicor glass ceramic and alumina core ceramic were the most commonly used materials by the responding schools for veneers, onlays, and crowns. Dicor glass ceramic and CAD/CAM ceramic were most commonly used for inlays. Crowns were made of more different all-ceramic material types than the other restoration classes. Fabrication of all-ceramic restorations was primarily by commercial laboratories and school technicians. Students have hands-on experience in the fabrication of all-ceramic restorations in 6% of the responding schools. Luting agents for all-ceramic restorations include dual-cured resin, in 96% of the responding schools, light-cured resin, 43%, and glass ionomer cement, 33%. Zinc phosphate, chemical-cured composite, and polycarboxylate were used by less than one fourth of the respondents. Only resin-based composite materials were used to lute ceramic veneers. Rubber dam was applied primarily during luting procedures involving all-ceramic inlays and onlays. Crowns and veneers were isolated by this method in less than 30% of the responding schools. Finishing procedures with all-ceramic restorations were accomplished with three or more instruments by 89% of the schools.
...
PMID:The teaching of all-ceramic restorations in North American dental schools: materials and techniques employed. 946 57

The in vitro adduct formation between phenyl glycidyl ether (PGE) and calf thymus DNA was investigated. Agarose slab gel electrophoresis of DNA incubated with PGE revealed that nearly all high-molecular-weight species were degraded after 10 h of incubation. After DNA precipitation the reaction products present in the supernatant were subjected to a solid-phase extraction on a polystyrene divinylbenzene copolymer, enabling analysis on capillary zone electrophoresis (CZE), using sample stacking. These reaction products were mainly produced during the first 10 h of incubation, indicating that these products result from the DNA degradation. On the other hand, analysis of the adducts present in the enzymatic digest of the DNA pellet revealed that these adducts were formed only after 10 h of incubation. The reaction products present in the DNA supernatant were identified by on-line coupling of CZE to electrospray tandem mass spectrometry. Three major reaction products resulted from phosphate alkylation, as proven by the analysis of the corresponding low-energy CAD product ion mass spectra. This phosphate alkylation results in phosphotriesters which readily hydrolyze, resulting in DNA strand breaks.
...
PMID:Analysis of the DNA damage induced by phenyl glycidyl ether using capillary zone electrophoresis-electrospray mass spectrometry. 957 Aug 49

The synthesis of carbamoyl phosphate by the mammalian multifunctional protein, CAD, involves the concerted action of the 40 kDa amidotransferase domain (GLN), that hydrolyzes glutamine and the 120 kDa synthetase (CPS) domain that uses the ammonia, thus produced, ATP and bicarbonate to make carbamoyl phosphate. The separately cloned GLN domain has very low activity due to a reduction in kcat and an increase in Km but forms a hybrid complex with the isolated Escherichia coli CPS subunit. The hybrid has full glutamine-dependent catalytic activity and a functional interdomain linkage. The mammalian-E. coli hybrid was used to investigate the functional consequence of replacing His336 and Glu338, two residues postulated to participate in catalysis as part of a catalytic triad. The mutant mammalian GLN domains formed stable complexes with the E. coli CPS subunit, but the catalytic activity was severely impaired. While the His336Asn mutant does not form measurable amounts of the gamma-glutamyl thioester, the steady state concentration of the intermediate with the Glu338Gly mutant was comparable to the wild type hybrid because both the rate of formation and breakdown of the thioester are reduced. This result is consistent with the postulated role of Glu338 in maintaining His336 in the optimal orientation for catalysis and suggests a mechanism for the GLN CPS functional linkage.
...
PMID:The function of Glu338 in the catalytic triad of the carbamoyl phosphate synthetase amidotransferase domain. 985 83

1 2 3 4 5 Next >>