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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 arginine-specific carbamoyl-phosphate synthase of yeast was stabilized sufficiently to allow partial purification of the enzyme (30- to 40-fold). The synthase (mol. wt 115000) comprised two unequal subunits: a heavy subunit (mol. wt 80000) capable of catalysing synthesis of carbamoyl phosphate with ammonia as a nitrogen donor and a light subunit conferring upon the holoenzyme the ability to utilize glutamine. The enzyme had unusually high affinity for ATP (Km = 0.2 mM) and atypical negative cooperativity for glutamine binding ([S]0.5 = 0.25 mM). Glutamine activity was not modulated by possible effectors such as arginine, ornithine or N-acetylglutamate. Thus, although the yeast arginine enzyme physically and functionally resembles the single enteric synthase, the systems differ substantially both in kinetic properties and in regulation of activity.
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PMID:Purification and properties of the arginine-specific carbamoyl-phosphate synthase from Saccharomyces cerevisiae. 20 52

Glutamine-dependent carbamoyl-phosphate synthetase was purified about 2100-fold from the cytosol of rat liver using 30% (v/v) dimethyl sulfoxide and 5% (w/v) glycerol as stabilizers. Throughout the purification, aspartate transcarbamylase and dihydroorotase, the second and third enzymes of pyrimidine biosynthesis, were copurified with the synthetase. These three enzymes sedimented as a single peak with a sedimentation coefficient of 27 S in sucrose gradients containing the stabilizers, indicating their existence as a multienzyme complex. The aggregation states of the complex were analyzed by sucrose gradient centrifugation under conditions approximating those used for enzymatic assay and correlated with the kinetic properties of the synthetase. In the presence of 10% glycerol and 10 mM MgATP(2-) at 18 degrees, the synthetase showed high activity and the three enzymes sedimented as a single peak with a coefficient of 25 S. The three enzymes also existed as a complex with the same coefficient when 50 muM PP-ribose-P was added in place of MgATP(2-), the sedimentation coefficient of the complex shifted to 28 S, indicating alteration in its molecular shape, rather than size. With 10% glycerol alone, the complex partially dissociated and the synthetase activity appeared in three peaks with coefficients of 26, 19, and 9 S (carbamoyl-phosphate synthetases (CPSase) a, b, and c, respectively). CPSases a, b, and c, thus obtained, were all sensitive to regulation by UTP and PP-ribose-P, but they differed MgATP(2-) (5.1, 4.8, AND 1.7 mM for CPSases a and b, and the enzyme within the original complex, respectively) and in their sensitivities to effectors. These results suggest that the aggregation may modify the catalytic and regulatory properties of the synthetase; Attempts to reassociate the components were unsuccessful.
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PMID:Aggregation states and catalytic properties of the multienzyme complex catalyzing the initial steps of pyrimidine biosynthesis in rat liver. 114 71

Glutamine-dependent carbamoyl-phosphate synthetase (EC 6.3.5.5) catalyzes the first step in de novo pyrimidine biosynthesis. The mammalian enzyme is part of a 240-kDa multifunctional protein which also has the second (aspartate carbamoyltransferase, EC 2.1.3.2), and third (dihydroorotase, EC 3.5.2.3) activities of the pathway. Shigesada et al. (Shigesada, K., Stark, G.R., Maley, J.A., and Davidson, J.N. (1985) Mol. Cell Biol. 175, 1-7) produced a truncated cDNA clone from a Syrian hamster cell line that contained most of the coding region for this protein. We have completed sequencing this clone, known as pCAD142. The cDNA insert contained all of the coding region for the glutaminase (GLN) and carbamyl phosphate synthetase (CPS) domains but lacked a short amino-terminal segment. By comparing the primary structure of the mammalian chimera to monofunctional proteins we have identified the borders of the functional domains. The GLN domain is 21 kDa, close to the size of the functionally similar polypeptide products of the Escherichia coli pabA and hisH genes. The domain has the three regions of homology common to trpG-type glutamine amidotransferases, as well as a fourth region specific to the carbamyl phosphate synthetases. The CPSase domain is similar to other reported CPSases in size (120 kDa), primary structure (37-67% amino acid identity), and homology between its amino and carboxyl halves. Analysis of the nucleotide and amino acid sequence identities among the various carbamyl phosphate synthetases suggests that the gene fusion which joined the GLN and CPS domains was an early event in the evolution of eukaryotic organisms and that the Saccharomyces cerevisiae enzyme consisting of separate subunits arose by defusion from an ancestral multifunctional protein.
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PMID:Mammalian carbamyl phosphate synthetase (CPS). DNA sequence and evolution of the CPS domain of the Syrian hamster multifunctional protein CAD. 197 79

The infusion of ether anesthaetized rats with 0.2 M (1 mmols in total) ammonium acetate or glutamine were compared with the infusion of 0.2 M NaCl. The levels of circulating glucose, amino acids, lactate, urea and ammonium were measured as well as liver glycogen and tissue amino acids and the liver and muscle activities of carbamoyl phosphate synthetases I and II, glutamate dehydrogenase, glutamine synthetase and adenylate deaminase. Neither treatment altered the glucose and glycogen homeostasis. The infusion of ammonium did not result in increases in circulating ammonium, but resulted in increased circulating urea after a short delay; the infusion of glutamine resulted also in urea production but much later on. Glutamine infusion also resulted in increased tissue free amino-acid levels. There was little alteration in enzyme activities, except for decreased glutamine synthetase and adenylate deaminase activity in muscle of glutamine-infused rats and higher tissue carbamoyl phosphate synthetase II. The results agree with a fast removal of infused ammonium, and maintenance of glutamine, with their channeling towards urea production at a rate comparable with that of infusion, that did not alter significantly the homeostasis of the experimental animals.
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PMID:Glutamine and ammonium handling by anaesthetized rats. 247 81

The submitochondrial localization of the four mitochondrial enzymes associated with urea synthesis in liver of Squalus acanthias (spiny dogfish), a representative elasmobranch, was determined. Glutamine- and acetylglutamate-dependent carbamoyl-phosphate synthetase, ornithine carbamoyltransferase, glutamine synthetase, and arginase were all localized within the matrix of liver mitochondria. The subcellular and submitochondrial localization and activities of several related enzymes involved in nitrogen metabolism and gluconeogenesis in liver and dogfish are also reported. Pyruvate carboxylase and phosphoenolpyruvate carboxykinase were localized in the mitochondrial matrix. Synthesis of citrulline by isolated mitochondria from ornithine proceeds at a near optimal rate at ornithine concentrations as low as 0.08 mM. The same stoichiometry and rates of citrulline synthesis are observed when ornithine is replaced by arginine. The mitochondrial location of arginase does not appear to reflect a mechanism for regulating ornithine availability.
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PMID:Submitochondrial localization of arginase and other enzymes associated with urea synthesis and nitrogen metabolism, in liver of Squalus acanthias. 286 47

The activities of key glutamine and urea cycle enzymes were assayed in liver homogenates from control and chronically acidotic rats and compared with citrulline and urea productions by isolated mitochondria and intact liver slices, respectively. Glutamine-dependent urea and citrulline synthesis were increased significantly in isolated mitochondria and in liver slices; the activities of carbamoyl phosphate synthetase and arginase were unchanged and increased, respectively. Glutamine was not a precursor in the carbamoyl phosphate synthetase system, suggesting that the glutamine effect is an indirect one and that glutamine requires prior hydrolysis. Increased mitochondrial citrulline synthesis was associated with enhanced oxygen consumption, suggesting glutamine acts both as a nitrogen and fuel source. Hepatic phosphate-dependent glutaminase was elevated by chronic acidosis. The results indicate that the acidosis-induced reduction in ureagenesis and reversal from glutamine uptake to release observed in vivo are not reflections of corresponding changes in the hepatic enzyme content. Rather, when available, glutamine readily supports ureagenesis, suggesting a close coupling of hepatic glutaminase flux with citrulline synthesis.
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PMID:Hepatic enzymes of glutamine and ureagenesis in metabolic acidosis. 287 77

1. Crithidia fasciculata was grown in a serum-free medium. 2. Twenty-six hours after addition of 2, 5, 20, 50, and 150 microM acivicin to logarithmically growing organisms, cell counts were decreased to 46, 23, 14, 9.1, and 8.6% of the control, respectively. 3. Guanosine plus cytidine (0.1 mM each) provided complete protection against growth inhibition by 5 microM acivicin. 4. Cells exposed to 10 microM acivicin showed a time-dependent, irreversible inactivation of L-glutamine-dependent carbamoyl-phosphate synthetase II activity; ammonia-dependent synthetase II activity was increased up to 34% of the control. 5. Glutamine (20 mM) protected the enzyme from inactivation in vivo. 6. These results indicate that acivicin acts as an affinity analog of L-glutamine in vivo as it does in vitro.
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PMID:Acivicin inhibits Crithidia fasciculata growth in a serum-free medium and inactivates carbamoyl-phosphate synthetase II in vivo. 290 99

Glutamine-dependent carbamoyl-phosphate synthetase, the first enzyme of the de novo biosynthetic pathway for pyrimidine nucleotides, was purified about twenty-fold from 105 000 x g supernatant of the Ascaris ovary homogenate. The enzyme activity was feedback-inhibited by UDP and UTP while it was stimulated by 5-phosphoribosyl 1-pyrophosphate. Most of the catalytic and regulatory properties of the Ascaris synthetase were similar to those of the mammalian synthetase. A significant difference is that the Ascaris enzyme was more strongly inhibited by UDP than by UTP whereas the mammalian enzyme is more sensitive to UTP than to UDP. The Ascaris enzyme was also inhibited by other various nucleoside diphosphates, such as dUDP, dADP and CDP, generally more strongly than by the corresponding nucleoside triphosphates. Aspartate carbamoyltransferase and dihydroorotase, the second and third enzymes of the pathway, were also demonstrated in the supernatant fraction. These two enzymes were copurified with the synthetase and the relative activities of the three enzymes remained nearly constant (1:850-890:50-60) throughout the purification. In a sucrose gradient centrifugation, the enzymes cosedimented as a single peak with a sedimentation coefficient (s20,w) of about 32 S under the condition used. These results strongly suggest that the enzymes exist as a multienzyme complex similar to those found in higher animals. The activity of the carbamoyltransferase was insensitive to nucleotides and related compounds. These results indicate that the synthetase plays a key role in the control of pyrimidine biosynthesis in the Ascaris ovary.
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PMID:Control of pyrimidine biosynthesis in the Ascaris ovary: regulatory properties of glutamine-dependent carbamoyl-phosphate synthetase and copurification of the enzyme with aspartate carbamoyltransferase and dihydroorotase. 610 8

High levels of both glutamine synthetase and a unique L-glutamine- and N-acetyl-L-glutamate-dependent carbamoyl phosphate synthetase are present in the mitochondria in livers of marine urea-retaining elasmobranchs (Casey, C. A., and Anderson, P. M. (1982) J. Biol. Chem. 257, 8449-8453). On the basis of these observations it has been suggested that in these species carbamoyl phosphate and, consequently, one of the nitrogen atoms of citrulline and, ultimately, urea, are derived directly from glutamine rather than from ammonia as occurs in mammalian ureotelic species. The purpose of this study was to obtain evidence for this role of glutamine. Isolated hepatic mitochondria from Squalus acanthias incubated with ammonia plus glutamate, ornithine, bicarbonate, inorganic phosphate, and succinate as an energy source were found to synthesize citrulline at a rate comparable to the rate of urea synthesis observed in vivo. Citrulline synthesis proceeds at maximal rates even when the ammonia concentration is as low as 0.05 mM and is stoichiometric with the amount of ammonia initially present. Synthesis from ammonia does proceed in the absence of glutamate, but a much higher concentration of ammonia (congruent to 4 mM) is required to achieve a half-maximal rate. Glutamine can substitute for ammonia plus glutamate as the nitrogen-donating substrate for citrulline synthesis. Selective inhibition of the glutamine-dependent activity of the carbamoyl phosphate synthetase in the isolated mitochondria completely inhibits the ability of the mitochondria to synthesize citrulline from glutamine or from ammonia plus glutamate, whereas selective inhibition of glutamine synthetase inhibits citrulline synthesis from ammonia plus glutamate, but not from glutamine. These observations provide direct evidence that ammonia assimilation for citrulline synthesis (and, therefore, urea synthesis) in these species involves intermediate formation of glutamine.
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PMID:Glutamine-dependent synthesis of citrulline by isolated hepatic mitochondria from Squalus acanthias. 614 86

The glutamine- and N-acetyl-L-glutamate-dependent carbamoyl phosphate synthetase III present in liver of largemouth bass (Micropterus salmoides) has been highly purified. The properties of the enzyme are generally similar to the properties of the carbamoyl phosphate synthetase III from spiny dogfish (Squalus acanthias) previously described (Anderson, P. M. (1981) J. Biol. Chem. 256, 12228-12238). However, the bass enzyme is not subject to self-association, and the effects of urea and, particularly, trimethylamine-N-oxide, on catalytic activity are considerably reduced. Ammonia can substitute for glutamine as the nitrogen-donating substrate, but the maximum rate is lower. Carbamoyl phosphate synthetase III, like other carbamoyl phosphate synthetases, catalyzes two partial reactions, ATP synthesis from carbamoyl phosphate and ADP, and bicarbonate-dependent hydrolysis of ATP; both reactions are greatly stimulated by the presence of N-acetyl-L-glutamate. Carbamoyl phosphate synthetase III gave no detectable immunological cross-reaction with antibody to the ammonia- and N-acetyl-L-glutamate-dependent carbamoyl phosphate synthetase from rat liver mitochondria. The apparent Km value for N-acetyl-L-glutamate decreases significantly as the concentration of L-glutamine increases in the glutamine-dependent reaction, and vice versa. This effect is glutamine-specific. The apparent Km for N-acetyl-L-glutamate in the ammonia-dependent reaction is not affected by changes in ammonia concentration and the apparent Km for ammonia (8 mM) is also not affected by changes in N-acetyl-L-glutamate concentration. Studies involving inhibition of carbamoyl phosphate synthetase III by the glutamine analogs acivicin (L-(alpha S,5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid), DON (6-diazo-5-oxo-L-norleucine), and chloroketone (L-2-amino-4-oxo-5-chloropentanoic acid), provided additional evidence for significant interaction between the L-glutamine- and N-acetyl-L-glutamate-binding sites. Glutamine-dependent but not ammonia-dependent activity is inhibited by preincubating the enzyme with these analogs. This inhibition requires the presence of both MgATP and N-acetyl-L-glutamate, and is prevented by the additional presence of L-glutamine. Inhibition of the glutamine-dependent reaction by DON or chloroketone is accompanied by a decrease in the apparent Km for N-acetyl-L-glutamate in the ammonia-dependent reaction from 0.3 mM to a value which is nearly the same as that observed in the glutamine-dependent reaction when glutamine is saturating (0.015 mM).
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PMID:Glutamine- and N-acetyl-L-glutamate-dependent carbamoyl phosphate synthetase from Micropterus salmoides. Purification, properties, and inhibition by glutamine analogs. 660 5


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