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1.
Increased blood ammonia was induced in fasting mice by ip administration of 200 mg/kg Na-valproate followed 1 h later by 13 and 4 mmol/kg alanine and ornithine, respectively. When valproate was not used blood or liver ammonia was not increased, but increases were observed in liver glutamate (5-fold), glutamine (2-fold), aspartate (5-fold), acetylglutamate (15-fold), citrulline (35-fold), argininosuccinate (11-fold), arginine (11-fold), and urea (3-fold). The level of carbamoyl phosphate (less than 2 nmol/g) was, by far, the lowest of all urea cycle intermediates. The large increase in citrulline indicates that argininosuccinate synthesis was limiting, and that the increase in acetylglutamate induced a considerable activation of carbamoyl phosphate synthetase, which agrees with theoretical expectations, irrespective of the actual KD value for acetylglutamate. Pretreatment with valproate resulted in lower hepatic levels of glutamate, glutamine, aspartate, acetyl-CoA, and acetylglutamate. At the level found of acetylglutamate the activation of carbamoyl phosphate synthetase would be expected to be similar to that without valproate. Indeed, the levels of citrulline were similar with or without valproate. Argininosuccinate, arginine, and urea levels exhibited little if any change. Although the model used may not replicate exactly the situation in patients, from our results it appears that changes in citrullinogenesis or in other steps of the urea cycle do not account for the increase in blood ammonia induced by valproate, and it is proposed that valproate may alter glutamine metabolism.  相似文献   

2.
When rats were placed on a low-protein (5%) diet for 24 h or less, liver mitochondrial acetylglutamate decreased rapidly, carbamyl phosphate synthetase (ammonia) and ornithine transcarbamylase decreased little, and carbamyl phosphate synthesis (measured as citrulline) by isolated mitochondria occurred at very low rates. The matrix acetylglutamate content of these mitochondria, whether coupled or uncoupled, was increased similarly by preincubating them with added acetylglutamate, but citrulline synthesis increased from less than 1 to 2.3 nmol min-1 mg-1 in the coupled state, and from less than 1 to 35 nmol min-1 mg-1 in the uncoupled state. However, when coupled mitochondria were incubated with the substrates required for the synthesis of acetylglutamate in the matrix, citrulline synthesis increased to 48 nmol min-1 mg-1; this rate was similar to that of mitochondria from control rats (fed a normal diet). When mitochondria from controls were incubated with up to 5mM acetylglutamate, citrulline synthesis by coupled mitochondria was increased by 10 to 40%, while synthesis by uncoupled mitochondria was 1.5 to 4 times higher than that observed with the coupled mitochondria; matrix acetylglutamate in both conditions rose to levels similar to those in the medium. The reason for the different behavior of carbamyl phosphate synthetase (ammonia) in coupled and uncoupled mitochondria was not apparent; neither oxidative phosphorylation nor ornithine transport were limiting in the coupled system. These observations are an example of the restrictions imposed upon enzymatic systems by the conditions existing in the mitochondrial matrix, and of the different behavior of carbamyl phosphate synthetase in situ and in solution. In addition, they show that conclusions about the characteristics of the enzyme in coupled mitochondria based on observations made in uncoupled mitochondria are not necessarily justified.  相似文献   

3.
1. The effect of ammonia on purine and pyrimidine nucleotide biosynthesis was studied in rat liver and brain in vitro. The incorporation of NaH14CO3 into acid-soluble uridine nucleotide (UMP) in liver homogenates and minces was increased 2.5–4-fold on incubation with 10mm-NH4Cl plus N-acetyl-l-glutamate, but not with either compound alone. 2. The incorporation of NaH14CO3 into orotic acid was increased 3–4-fold in liver homogenate with NH4Cl plus acetylglutamate. 3. The 5-phosphoribosyl 1-pyrophosphate content of liver homogenate was decreased by 50% after incubation for 10min with 10mm-NH4Cl plus acetylglutamate. 4. Concomitant with this decrease in free phosphoribosyl pyrophosphate was a 40–50% decrease in the rates of purine nucleotide synthesis, both de novo and from the preformed base. 5. Subcellular fractionation of liver indicated that the effects of NH4Cl plus acetylglutamate on pyrimidine and purine biosynthesis required a mitochondrial fraction. This effect of NH4Cl plus acetylglutamate could be duplicated in a mitochondria-free liver fraction with carbamoyl phosphate. 6. A similar series of experiments carried out with rat brain demonstrated a significant, though considerably smaller, effect on UMP synthesis de novo and purine base reutilization. 7. These data indicate that excessive amounts of ammonia may interfere with purine nucleotide biosynthesis by stimulating production of carbamoyl phosphate through the mitochondrial synthetase, with the excess carbamoyl phosphate in turn increasing pyrimidine nucleotide synthesis de novo and diminishing the phosphoribosyl pyrophosphate available for purine biosynthesis.  相似文献   

4.
Rat liver ornithine carbamoyltransferase appears to be located exclusively in the mitochondria; the activity that is found in the soluble fraction is indistinguishable from mitochondrial ornithine carbamoyltransferase by simple kinetic criteria, and seems to result from breakage of mitochondria during homogenization. Of several rat tissues studied, only the liver and the mucosa of small intestine contain significant amounts of ornithine carbamoyltransferase; the activity in intestinal mucosa is less than one thousandth of that in liver. Qualitatively, this distribution coincides with that of carbamoyl phosphate synthetase I and its cofactor, acetylglutamate. The rat liver contents of carbamoyl phosphate and ornithine were 0.1 and 0.15mumol/g wet wt. of tissue respectively. On the basis of these values, it is proposed that in vivo the ornithine carbamoyltransferase activity of liver may be much lower than its maximal activity in vitro might suggest.  相似文献   

5.
Carbamoyl phosphate synthetase (CPS), ornithine transcarbamylase (OTC), and aspartate transcarbamylase (ATC) were assayed in extracts from unpollinated ovaries of Pisum sativum L. CPS and OTC activities were, per milligram protein, the highest reported in a plant tissue, representing an estimated 0.1% of the protein in the ovary. The OTC/CPS and ATC/CPS ratios were about 100 and 0.5, respectively, indicating that most of the carbamoyl phosphate is used for arginine synthesis. The weight, protein content, and CPS, OTC, and ATC activities per ovary were determined during the senescence of the ovary and also during fruit set induced by treatment with gibberellic acid (GA3). In the nontreated ovary the weight and the protein first increased and then decreased dramatically, but the decrease in protein took place much earlier. In the GA3-treated ovaries the increase in weight was considerably greater than the increase in the protein. Whether or not the ovaries were treated with GA3, CPS, OTC, and ATC activities closely followed the changes in protein, and thus their ratios and specific activities remained essentially constant. It appears that treatment with GA3 increases the amount of protein and enzymic activities by preventing a large increase in the rate of protein degradation. In addition, the effects of acetylglutamate, ornithine, and UMP on CPS activity were studied. The pea enzyme exhibits regulatory properties intermediate between those of Escherichia coli and the ureotelic liver enzymes.  相似文献   

6.
Citrulline is synthesized in mitochondria of Neurospora crassa from ornithine and carbamoyl phosphate. In mycelia grown in minimal medium, carbamoyl phosphate limits citrulline (and arginine) synthesis. Addition of arginine to such cultures reduces the availability of intramitochondrial ornithine, and ornithine then limits citrulline synthesis. We have found that for some time after addition of excess arginine, carbamoyl phosphate synthesis continued. Very little of this carbamoyl phosphate escaped the mitochondrion to be used in the pyrimidine pathway in the nucleus. Instead, mitochondrial carbamoyl phosphate accumulated over 40-fold and turned over rapidly. This was true in ornithine- or ornithine carbamoyltransferase-deficient mutants and in normal mycelia during feedback inhibition of ornithine synthesis. The data suggest that the rate of carbamoyl phosphate synthesis is dependent to a large extent upon the specific activity of the slowly and incompletely repressible synthetic enzyme, carbamoyl-phosphate synthetase A. In keeping with this conclusion, we found that when carbamoyl-phosphate synthetase A was repressed 2-10-fold by growth of mycelia in arginine, carbamoyl phosphate was still synthesized in excess of that used for residual citrulline synthesis. Again, only a small fraction of the excess carbamoyl phosphate could be accounted for by diversion to the pyrimidine pathway. The continued synthesis and turnover of carbamoyl phosphate in mitochondria of arginine-grown cells may allow rapid resumption of citrulline formation after external arginine disappears and no longer exerts negative control on ornithine biosynthesis.  相似文献   

7.
Citrulline synthesis from ammonia by hepatic mitochondria in elasmobranchs involves intermediate formation of glutamine as the result of the presence of high levels of glutamine synthetase and a unique glutamine- and N-acetyl-glutamate-dependent carbamoyl phosphate synthetase, both of which have properties unique to the function of glutamine-dependent synthesis of urea, which is retained in the tissues of elasmobranchs at high concentrations for the purpose of osmoregulation [P.M. Anderson and C.A. Casey (1984) J. Biol. Chem. 259, 456-462; R.A. Shankar and P.M. Anderson (1985) Arch. Biochem. Biophys. 239, 248-259]. The objective of this study was to determine if ornithine carbamoyl transferase, which catalyzes the last step of mitochondrial citrulline synthesis and which has not been previously isolated from any species of fish, also has properties uniquely related to this function. Ornithine carbamoyl transferase was highly purified from isolated liver mitochondria of Squalus acanthias, a representative elasmobranch. The purified enzyme is a trimer with a subunit molecular weight of 38,000 and a native molecular weight of about 114,000. The effect of pH is significantly influenced by ornithine concentration; optimal activity is at pH 7.8 when ornithine is saturating. The apparent Km values for ornithine and carbamoyl phosphate at pH 7.8 are 0.71 and 0.05 mM, respectively. Ornithine displays considerable substrate inhibition above pH 7.8. The activity is not significantly affected by physiological concentrations of the osmolyte urea or trimethylamine-N-oxide or by a number of other metabolites. The results of kinetic studies are consistent with a steady-state ordered addition of substrates (carbamoyl phosphate binding first) and rapid equilibrium random release of products. Except for an unusually low specific activity, the properties of the purified elasmobranch enzyme are similar to the properties of ornithine carbamoyl transferase from mammalian ureotelic and other species and do not appear to be unique to its role in glutamine-dependent synthesis of urea for the purpose of osmoregulation.  相似文献   

8.
N-Acetyl-L-glutamate has been examined with regard to its ability to activate carbamoyl phosphate synthetase I (EC 6.3.4.16). Substance(s) inhibitory to carbamoyl phosphate synthetase, present even in the partially purified preparation of rat liver extracts, interfered with the measurement of acetylglutamate. In the experiments using chelating agents, metals were apparently involved in this inhibition. When the partially purified preparation of liver extract was placed on a Chelex 100 column, the inhibitor was eliminated and accurate measurements of acetylglutamate content could be made. Evidence supporting the validity of this improved method is given. A significant difference was observed between acetylglutamate levels determined by the present method and by the one using aminoacylase I (N-acylamino acid amidohydrolase, EC 3.5.1.14) to hydrolyze acetylglutamate followed by assay of the glutamate generated. We searched for the presence of glutamate derivatives other than acetylglutamate. When impure tissue preparations containing acetylglutamate were treated with a commercial preparation of aminoacylase, there was an excess amount of glutamate apparently derived from compounds other than acetylglutamate. This can lead to an overestimation of the tissue levels of acetylglutamate.  相似文献   

9.
The activities of two enzymes mediating different pathways of ornithine catabolism were measured in liver and kidney of chronically uremic rats and their pair-fed controls. Two months following partial nephrectomy hepatic ornithine aminotransferase (OAT) activity tended to be lower in uremic rats and was correlated with urea clearance and with carbamoyl phosphate synthetase activity. Renal OAT activity in uremic rats was also correlated with urea clearance. When uremic rats were maintained for five months, OAT activity was significantly decreased in liver but not in kidney and the activity of ornithine decarboxylase (ODC), the enzyme regulating polyamine biosynthesis, was reduced in both liver and kidney. In cross-over experiments, evidence was obtained for a factor in uremic kidney cytosol which inhibited renal ODC activity.  相似文献   

10.
Mammalian liver mitochondrial carbamoyl phosphate synthetase, a polypeptide of 160 kDa, is activated allosterically by N-acetyl-L-glutamate. The analogue of this activator N-(chloroacetyl)-L-[14C]glutamate has been found to serve as a photoaffinity label for this enzyme. The specificity was demonstrated by the drastic reduction in the radioactivity bound to the protein when (a) an excess of unlabeled acetylglutamate was present during the irradiation and (b) the enzyme was replaced by pyruvate kinase, an enzyme that is not affected by acetylglutamate. The labeling was due to the photoactivation of the chloroacetyl group since there was no labeling under equal conditions with acetyl[14C]glutamate. To localize the binding site, limited proteolysis was used. Trypsin cleaves carbamoyl phosphate synthetase into complementary NH2- and COOH-terminal fragments of about 140 and 20 kDa, respectively [Powers-Lee, S. G., & Corina, K. (1986) J. Biol. Chem. 261, 15349-15352], but only the latter was found to be labeled. Similarly, of the various fragments generated by elastase, only two, of 20 and 120 kDa, contain the COOH terminus [see Powers-Lee and Corina (1986) above] and were found to be labeled. Thus, the binding site for acetylglutamate is within 20 kDa from the COOH terminus. This excludes the possibility that the acetylglutamate binding site evolved from an ancestral substrate site for glutamine: this substrate binds to the small subunit of the Escherichia coli enzyme, which is homologous to the NH2-terminal domain of the rat liver enzyme. Exhaustive tryptic digestion of photolabeled carbamoyl phosphate synthetase yielded a single radioactive peak, suggesting that the labeling is restricted to a single minimal tryptic peptide.  相似文献   

11.
Rat liver carbamoyl phosphate synthetase is shown to be inhibited by anions competitively with acetylglutamate (the allosteric activator of the enzyme) with a potency decreasing in the order NO3- greater than SO4(2-) greater than Cl- approximately HCO3-. Inhibition by chloride accounts for most of the inhibition reported [Lund, P., and Wiggins, D. (1987) Biochem. J. 243, 273-276] in Tris buffer. Mes, acetate, and isethionate give little or no inhibition and phosphate inhibits noncompetitively. Plots of the KA value for acetylglutamate versus the concentration of chloride or nitrate are curved upward and binding assays demonstrate that the inhibitory anions displace acetylglutamate from the enzyme. Thus, the anions may compete with the carboxyls of acetylglutamate for positive charges at the binding site. Of the organic anions found in the mitochondrial matrix, alpha-ketoglutarate, malate, succinate, and citrate increase substantially the KA for acetylglutamate. Changes in the concentrations of ATP, HCO3-, NH4+, and Mg2+, and high concentrations of protein (60 mg/ml serum albumin) influence the KA value. Changes in the concentration of the enzyme have no effect. Under assay conditions approaching the ionic, buffer, and substrate concentrations expected to occur in the mitochondrial matrix, the KA value for acetylglutamate is 27 microM and the Vmax is decreased about 50%. These results indicate that physiological changes in the level of acetylglutamate significantly influence the degree of activation of carbamoyl phosphate synthetase in vivo.  相似文献   

12.
During periods of nitrogen exportation from the cell, mitochondrial carbamoyl phosphate is synthesized, thus initiating the urea cycle. During times of nitrogen conservation by the liver cell, carbamoyl phosphate is synthesized in the cytosol of the cell, whereupon the de novo pyrimidine synthesis pathway is initiated. The de novo pathway provides pyrimidines for increased ribonucleic acid synthesis. Formerly, it was believed that these two pathways functioned irrespective of one another. However, recent experimental evidence indicates that, when excess ammonia is present, mitochondrial carbamoyl phosphate passes from the mitochondria into the cell cytosol, where it is metabolized by the de novo pyrimidine synthesis pathway. When ornithine and excess ammonia are both present, mitochondrial carbamoyl phosphate no longer passes from the mitochondria into the cytosol to be metabolized by the de nova pathway. Thus the metabolic fate of mitochondrial carbamoyl phosphate, and that of excess nitrogen, is determined by the presence or absence of ornithine. In turn, this key molecule is the substrate for the cytoplasmic enzyme ornithine decarboxylase. When ornithine decarboxylase is stimulated by insulin, ornithine is metabolized to putrescine. The activated ornithine decarboxylase combines with ribonucleic acid polymerase, activating the later enzyme. When ornithine is acted upon by ornithine decarboxylase, it is no longer available for the perpetuation of the urea cycle and mitochondrial carbamoyl phosphate levels rise until the carbamoyl phosphate passes into the cytosol to be metabolized by the de novo pathway. Increased amounts of pyrimidines are available for the activated ribonucleic acid polymerase. Therefore insulin, through its stimulation of ornithine decarboxylase, achieves cellular nitrogen retention by regulating nitrogen incorporation into newly synthesized ribonucleic acid.  相似文献   

13.
Function of arginase in lactating mammary gland   总被引:5,自引:3,他引:2  
The potential for a considerable formation of ornithine exists in lactating mammary gland because of its arginase content. Late in lactation arginase reaches an activity in the gland higher than that present in any rat tissue except liver. Occurrence of the urea cycle can be excluded since two enzymes for the further reaction of ornithine in the cycle, carbamoyl phosphate synthetase I and ornithine carbamoyltransferase, are both absent from this tissue. Instead, carbamoyl phosphate synthetase II appears early in lactation, associated with accumulation of aspartate carbamoyltransferase and DNA, consistent with the proposed role of these enzymes in pyrimidine synthesis. The facts require another physiological role for arginase apart from its known function in the urea cycle. Significant activity of ornithine aminotransferase develops in mammary gland in close parallel with the arginase. By this reaction, ornithine can be converted into glutamic semialdehyde and subsequently into proline. The enzymic composition of the lactating mammary gland is therefore appropriate for the major conversion of arginine into proline that is known to occur in the intact gland.  相似文献   

14.
1. The influence of ammonia and ornithine on the oxygen uptake and the formation of citrulline was investigated with isolated rat liver mitochondria. The experiments were performed in a cytosol-like saline medium at 38 degrees C. 2. Under these conditions an increase of the respiration rate by ammonia and ornithine was observed, but a small response to external ADP, only. The missing stimulation by ADP was due to a partial inhibition of the respiratory chain by traces of zinc (approximately 1 microM) present in the medium. This inhibition was only detected at low concentrations of mitochondria. 3. For activation of respiration by ammonia plus ornithine two different processes were responsible: (i) chelation of the inhibiting zinc by ornithine, which could be prevented by EDTA; (ii) ADP production in the matrix space during formation of carbamoyl phosphate, which could be prevented by oligomycin but not by carboxyatractyloside. 4. This stimulus of the carbamoyl phosphate formation and of the equivalent citrulline synthesis on the mitochondrial respiration ran to 12% of that increase caused by phosphorylation of external ADP. The maximum rate of citrulline formation was limited by the activity of carbamoyl phosphate synthetase. 5. Added ADP suppresses the production of citrulline probably by the exchange of extramitochondrial ADP versus intramitochondrial ATP. The data suggest a common adenine nucleotide pool delivering ATP to the adenine nucleotide translocase as well as to the carbamoyl phosphate synthetase.  相似文献   

15.
Of the two mitochondrial enzymes of the urea cycle, carbamoyl phosphate synthetase (CPS) was and ornithine transcarbamylase (OTC) was not inactivated by the Fe3+-oxygen-ascorbate model system for mixed-function oxidation [R. L. Levine, (1983) J. Biol. Chem. 258, 11828-11833]. The susceptibility of OTC was not increased by its substrates, products, or inhibitors, whereas that of CPS was markedly increased by acetylglutamate (its allosteric activator) when ATP was absent. Thus, acetylglutamate binds in the absence of ATP and exposes to oxidation essential groups of the enzyme. We estimate for this binding a KD value of 1.6 mM, which greatly exceeds the KD values (less than 10 microM) determined in the presence of ATP and bicarbonate. ATP, and even more, mixtures of ATP and bicarbonate protected CPS from inactivation. Acetylglutamate exposes the site for the ATP molecule that yields Pi, and it appears that ATP protects by binding at this site. Experiments of limited proteolysis with elastase suggest that oxidation prevents this binding of ATP and show that it accelerates cleavage of CPS by the protease, thus supporting the idea that oxidation may precede proteolysis. Trypsin, chymotrypsin, and papain also hydrolyze the oxidized enzyme considerably faster than the native enzyme. Our results also support the idea that oxidative inactivation is site specific and requires sites on the enzyme for Me2+ and, possibly, for a nucleotide.  相似文献   

16.
Urea-hydrolysis-dependent citrulline synthesis by Ureaplasma urealyticum   总被引:1,自引:0,他引:1  
Some of the ammonia produced by hydrolysis of urea by Ureaplasma urealyticum is channelled into an anabolic pathway with resultant 'de novo' synthesis of citrulline. The organism appears to possess ornithine carbamoyltransferase and carbamoyl phosphate synthetase or some modified form of these enzymes.  相似文献   

17.
Summary All the five enzymes of urea synthesis and the formation of urea in vitro can already be demonstrated in human liver as early as the 9th week of fetal development. At this stage the activity of carbamoyl phosphate synthetase is the highest, whereas that of ornithine carbamoyltransferase is the lowest as compared to those in the adult. The kinetic parameters of the urea cycle enzymes are the same in fetal liver as in adult liver, except that the Km values of ornithine carbamoyltransferase for L-ornithine are 3.5 mM and 0.42 mM in the fetus and in adult liver, respectively.Urea formation in vivo seems to begin in the second half of fetal life, and a gradual increase can be detected in the activity of the enzymes of urea synthesis. The activity of ortnithine decarboxylase, the glutamine-dependent carbamoyl phosphate synthetase and aspartate carbamoyltransferase, however, changes in the opposite direction.The concentration of carbamoyl phosphate and aspartate remains constant, but that of ornithine gradually decreases during ontogenesis. The ornithine, carbamoyl phosphate and aspartate pools are probably utilized in the polyamine, pyrimidine and urea syntheses at varying rates.  相似文献   

18.
The Chinese fire-belly newt Cynops orientalis reverts to an aquatic mode of living when sexually mature. Despite living in water, sexually mature C. orientalis maintained high capacity for hepatic urea synthesis. However, it had a lower rate of urea production than other terrestrial amphibians because endogenous ammonia could diffuse out to the external medium as NH3. This conserves cellular energy because urea synthesis is energetically expensive. Simultaneously, C. orientalis also reduced the rate of urea excretion, and excreted 33% of the total nitrogenous waste as ammonia. Upon exposure to land, C. orientalis increased the rate of urea synthesis from accumulating endogenous ammonia. The increased rate of urea synthesis was within the inherent capacity of the hepatic ornithine–urea cycle; there was no induction of hepatic carbamoyl phosphate synthetase or ornithine transcarbamoylase activities and there was no reduction in ammonia production. When exposed to water containing 75 mmol.l–1 NH4Cl, the rates of both urea synthesis and urea excretion increased. Under such experimental conditions, the ornithine–urea cycle may be operating close to its limit; glutamine began to accumulate in the body, and endogenous ammonia production via amino acid catabolism was reduced.Abbreviations CPS carbamoyl phosphate synthetase - FAA free amino acid - OTC ornithine transcarbamoylase - OUC ornithine–urea cycle - TCA trichloroacetic acid Communicated by I.D. Hume  相似文献   

19.
Ornithine carbamoyl transferase (OCT) catalyzes the formation of citrulline and orthophosphate from ornithine and carbamoyl phosphate. We have partially purified OCT from the filamentous cyanobacterium Nostoc sp. strain PCC 73102, using ammonium sulfate precipitation (35–55%), a gel-filtration column (Sephacryl S-200), followed by an affinity column (Sepharose-6B-PALO). The partially purified OCT was analyzed on native-PAGE and shown to be an active enzyme with an estimated molecular weight of approximately 80 kDa. The isoelectric point was determined to be about 6.2. Varying the ornithine concentration resulted in a hyperbolic response of the reaction velocity at lower concentrations. Ornithine concentrations above 2 mM inhibited the enzyme. A hyperbolic response of the OCT reaction was observed when increasing the carbamoyl phosphate concentration. From a double reciprocal plot, a saturation concentration of 0.8 mM and a Vmax of 0.4 U/mg may be calculated. None of the tested compounds (argininosuccinate, arginine, aspartic acid, urea) had any significant positive effect on the in vitro activity of the partially purified OCT. Moreover, at concentrations higher than 10 mM, all tested compounds had an inhibitory effect. Received: 23 March 1998 / Accepted: 6 May 1998  相似文献   

20.
Summary Mutants resistant to 5-fluorouracil, 5-fluorouridine and 5-fluorodeoxyuridine have been selected in Aspergillus nidulans. Growth tests combined with genetic analysis showed that mutations conferring resistance to fluoropyrimidines could occur in at least seven genes. Three of these, fulE, fulF and furA were concerned with either the uptake of pyrimidines or their conversion to uridine monophosphate. The other four genes did not affect these functions. Mutations in fulA probably confer resistance by lowering ornithine transcarbamoylase, thereby making the normally arginine-specific carbamoyl phosphate pool available for increased uracil synthesis. Mutations in fulD may make the arginine-specific carbamoyl phosphate synthetase insensitive to inhibition or repression by arginine, and so lead to increased carbamoyl phosphate pool sizes, and increased uracil synthesis. Both fulA and fulD mutants suppress pyrA mutants which lack the uracil-specific carbamoyl phosphate synthetase. Mutations in fulB and fulC do not suppress pyrA, and so may act more directly to increase uracil synthesis. The synthesis of aspartate carbamoyl transferase in fulB7 strains is not repressed by uracil. fulC mutants are closely linked to the pyrA, B, C, N region which codes for the first two enzymes of pyrimidine biosynthesis, and may result in these enzymes being less sensitive to inhibition by uracil.Abbreviations used 5FU 5-fluorouracil - 5FUR 5-fluorouridine - 5FdUR 5-fluorodeoxyuridine  相似文献   

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