Your search keyword '"Argininosuccinate Lyase metabolism"' showing total 268 results

251. Permissive effect of dexamethasone on glucagon induction of urea-cycle enzymes in perifused primary monolayer cultures of rat hepatocytes.

Author

Gebhardt R and Mecke D

Subjects

Animals, Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Cells, Cultured, Liver drug effects, Male, Ornithine Carbamoyltransferase metabolism, Rats, Dexamethasone pharmacology, Glucagon pharmacology, Liver enzymology, Urea metabolism

Abstract

Parenchymal cells from adult rat liver, cultured in perifused monolayers, increased the levels of urea-cycle enzymes between 15% and 60% in response to glucagon within 24 h. This stimulation was drastically enhanced by the simultaneous presence of dexamethasone, especially in the case of argininosuccinate synthetase and argininosuccinate lyase, which increased nearly threefold. Dexamethasone itself produced only negligible stimulation, but exerted a similar effect on the stimulatory action of glucagon, if it was exclusively present during 6 h prior to the glucagon treatment, suggesting a permissive action of this hormone. The effect of glucagon, particularly in the presence of dexamethasone, was mimicked by dibutyryl adenosine 3':5'-monophosphate, whereas epinephrine was ineffective. All stimulations induced by hormones or dibutyryl adenosine 3':5'-monophosphate were abolished by cycloheximide, suggesting the involvement of protein synthesis in the induction process. Using the usual culture technique with a discontinuous supply of medium no significant effect of glucagon and dexamethasone could be measured. This striking difference between both culture systems indicates that perifusion is the more adequate in vitro system for studies of the regulation of enzyme levels. Possible reasons for the failure of hormonal stimulation of urea-cycle enzymes in normal monolayer culture are discussed.

Published

1979

252. Studies on nitrogen catabolism in Panagrellus redivivus, Goodey, 1945 (Nematoda: Cephalobidae).

Author

Wright DJ

Subjects

Animals, Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Citrulline metabolism, Ornithine Carbamoyltransferase metabolism, Urease metabolism, Nematoda metabolism, Nitrogen metabolism, Urea metabolism

Published

1975

253. Induced biochemical and physiological changes in young and adult growing rats fed on a vegetable or animal protein diet.

Author

Martínez JA, Barcina Y, and Larralde J

Subjects

Alanine Transaminase metabolism, Animals, Arginase metabolism, Argininosuccinate Lyase metabolism, Blood Proteins metabolism, Body Weight, DNA metabolism, Liver enzymology, Male, RNA metabolism, Rats, Rats, Inbred Strains, Zinc metabolism, Caseins administration & dosage, Dietary Proteins administration & dosage, Fabaceae, Growth, Plants, Medicinal

Abstract

The influence of diets containing faba bean or casein as sources of protein were studied in rats at two stages of development. A significant impairment of growth rate, carcass, liver and skeletal muscle were found in young and adult rats fed for a period of 10 days on raw legume. Urinary urea output and the activities of three amino acid degrading enzymes: arginase, alanine aminotransferase and arginine succinate synthetase were all affected by the dietary protein and the stage of development. Urinary creatinine excretion was higher in the adult rats, while serum cholesterol was slightly increased in the young ones. Changes in plasma zinc may be attributed to a reduced zinc bioavailability to rats from the faba bean diet. Other biochemical parameters measured (glucose, triglycerides and plasma proteins) remained unchanged in all the experimental groups. Liver DNA and RNA content (mg/g tissue) decreased with age in both dietary groups, which were accompanied by an increase in tissue size. Furthermore, liver RNA concentration (primarily a measure of protein synthesis capacity) was enhanced in the adult legume fed rats. In this context, it is suggested that other organs (particularly muscle, with lower amino acid requirements for protein synthesis as a consequence of the stunting of growth) could contribute to increase the amino acid supply to liver in the animals fed on the faba bean diet.

Published

1986

254. Primary culture of normal adult rat liver cells which maintain stable urea cycle enzymes.

Author

Lin RC and Snodgrass PJ

Subjects

Adenylyl Cyclases metabolism, Animals, Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Cattle, Collagen, Culture Media, Culture Techniques, Epinephrine pharmacology, Fluorides pharmacology, Glucagon pharmacology, Insulin pharmacology, Liver cytology, Male, Ornithine Carbamoyltransferase metabolism, Rats, Time Factors, Liver enzymology, Tyrosine Transaminase metabolism, Urea metabolism

Published

1975

255. Effects of 12-O-tetradecanoylphorbol-13-acetate and retinoids on intercellular junctional communication measured with a citrulline incorporation assay.

Author

Davidson JS, Baumgarten IM, and Harley EH

Subjects

Animals, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase deficiency, Argininosuccinate Synthase metabolism, Argininosuccinic Aciduria, Cell Line, Cells, Cultured, Cricetinae, Cricetulus, Dimethyl Sulfoxide pharmacology, Fluocinolone Acetonide pharmacology, Intercellular Junctions drug effects, Tretinoin toxicity, Cell Communication drug effects, Citrulline metabolism, Fibroblasts metabolism, Intercellular Junctions metabolism, Phorbols pharmacology, Tetradecanoylphorbol Acetate pharmacology, Tretinoin pharmacology

Abstract

Inhibition of intercellular junctional communication by 12-O-tetradecanoylphorbol-13-acetate (TPA) and retinoids was investigated using a citrulline incorporation assay. This new assay uses metabolic co-operation between argininosuccinate lyase-deficient human fibroblasts and arginosuccinate synthetase-deficient cells as a measure of junctional communication. Short-term exposure to TPA resulted in virtually complete inhibition of metabolic co-operation when V79 cells were used as the synthetase-deficient type. When synthetase-deficient human fibroblasts were used, inhibition by TPA was only partial. Exposure to high concentrations of TPA for prolonged periods resulted in partial reversal of communication inhibition and a refractory state in which cells were unresponsive to TPA. Retinoic acid and other retinoids also inhibited metabolic co-operation, but did not cause desensitisation of the type seen with TPA after prolonged exposure. Cultures which had been made refractory to TPA remained sensitive to inhibition by retinoic acid and 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane, indicating that these latter compounds inhibit junctional communication by a mechanism different from TPA. Simultaneous exposure of cultures to TPA and retinoic acid showed that the inhibitory effects on metabolic co-operation of these compounds were additive. Fluocinolone acetonide did not antagonise the effect of TPA. These results suggest that retinoic acid and fluocinolone acetonide exert their anti-tumor-promoting action by mechanisms which are not mediated by intercellular junctional communication.

Published

1985

256. Regulation of arginine biosynthesis in Saccharomyces cerevisiae: isolation of a cis-dominant, constitutive mutant for ornithine carbamoyltransferase synthesis.

Author

Messenguy F

Subjects

Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Genes, Dominant, Genetic Linkage, Mutation, Saccharomyces cerevisiae metabolism, Arginine biosynthesis, Genes, Regulator, Ornithine Carbamoyltransferase biosynthesis, Saccharomyces cerevisiae enzymology

Abstract

A cis-dominant mutation linked to argF, the structural gene specifying ornithine carbamoyltransferase, and affecting the control of the synthesis of this enzyme has been obtained. The level of ornithine carbamoyltransferase in this mutation is depressed and less repressible by addition of L-arginine than it is in the wild-type strain. Of 38 tetrads analyzed, resulting from a cross of a strain harboring this mutation with a strain carrying an argF- mutation, none was a tetratype or a nonparental ditype. This operator mutation helps to define a negative mode of control of the synthesis of the arginine biosynthetic enzymes, as had been suggested earlier upon the isolation of argRI- (arg80), argRII- (arg81), and argRIII- (arg82) specific regulatory mutations.

Published

1976

257. Nutritional and hormonal regulation of mRNA abundance for arginine biosynthetic enzymes in kidney.

Author

Morris SM Jr, Moncman CL, Holub JS, and Hod Y

Subjects

Animals, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Blotting, Northern, Blotting, Southern, Bucladesine pharmacology, Chickens, Cloning, Molecular, DNA Probes, Dexamethasone pharmacology, Dietary Proteins administration & dosage, Enzyme Induction, Food Deprivation, Kidney drug effects, Kidney Cortex enzymology, Liver enzymology, Rats, Rats, Inbred Strains, Restriction Mapping, Argininosuccinate Lyase genetics, Argininosuccinate Synthase genetics, Kidney enzymology, Ligases genetics, Lyases genetics, RNA, Messenger analysis

Abstract

Argininosuccinate synthetase and argininosuccinate lyase catalyze the synthesis of arginine from citrulline in kidney and also serve as components of the urea cycle in liver of ureotelic animals. Dietary and hormonal regulation of mRNAs encoding these enzymes have been well studied in liver but not in kidney. Messenger RNAs for these enzymes are localized within the renal cortex. Starvation and extreme variations in dietary protein content (0% vs 60% casein) produced 2.6- to 3.5-fold increases in mRNA abundance for these two enzymes in rat kidney. Argininosuccinate lyase mRNA was not induced by dibutyryl cAMP, dexamethasone, or a combination of the two agents. In contrast, argininosuccinate synthetase mRNA was induced 2-fold by dibutyryl cAMP but was unresponsive to dexamethasone. Thus, diet and hormones regulate levels of these mRNAs in rat kidney, but the responses are both qualitatively and quantitatively distinct from the responses previously reported for rat liver.

Published

1989

258. The simulation of the urea cycle: correlation of effects due to inborn errors in the catalytic properties of the enzymes with clinical-biochemical observations.

Author

Kuchel PW, Roberts DV, and Nichol LW

Subjects

Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Humans, Kinetics, Ornithine Carbamoyltransferase metabolism, Amino Acid Metabolism, Inborn Errors enzymology, Models, Biological, Urea metabolism

Abstract

Steady-state rate equations are written on the basis of information obtained from the literature describing the kinetics of the four enzyme-catalysed reactions comprising the urea cycle. These equations are formulated into a set which also accounts for fluxes of input and output compounds external to the cycle. Numerical integration of this set of equations is performed employing parameters selected to approximate those pertaining to the operation of the urea cycle in normal liver. The result is a pattern of intermediate metabolite concentrations, which forms a basis for the comparison of patterns reflecting the effects of inborn errors of metabolism. The latter are calculated by varying specified kinetic parameters in the numerical integration. Each of the observed clinical syndromes. Hyperammonemia Types I and II, Hyperarginemia, Citrullinemia and Argininosuccinicaciduria, is discussed.

Published

1977

259. The efficacy of protein supplementation in overcoming urea toxicity in sheep.

Author

Payne E and Laws L

Subjects

Ammonia blood, Animal Feed, Animals, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Drug Tolerance, Liver enzymology, Male, Molasses, Protein Deficiency diet therapy, Dietary Proteins therapeutic use, Protein Deficiency metabolism, Sheep metabolism, Urea toxicity

Abstract

1. In the first experiment sheep taken from pasture were given a low-protein diet for six weeks in individual pens. Then, for 1 week, groups were given a supplement of lucerne chaff, safflower meal or lucerne chaff plus safflower meal. In the second experiment eighteen sheep maintained on lucerne chaff rather than pasture were then depleted of protein to a greater extent by feeding on a restricted low-protein diet. Six of the sheep received a supplement of molasses throughout the period of protein depletion while six of the sheep on the basal ration received a supplement of safflower meal after 6 weeks on the low-protein diet. 2. The urea tolerance of the sheep, is indicated by blood ammonia levels after oral dosing with aqueous solutions of urea, was determined after the period of supplementation. "Arginine synthetase" activity (combined activities of argininosuccinate synthetase (EC 6.3.4.5) and argininosuccinate lyase (EC 4.3.2.1) was determined in liver samples obtained by biopsy at various intervals during the experiment. 3. Supplementation for 7 d with 73 g crude protein (nitrogen X 6-25)/d increased the tolerance to urea as indicated by reduced blood NH3 levels, and also increased "arginine synthetase" activity. 4. Giving supplements of molasses delayed the onset of urea toxicity but not the extent of toxicity. 5. It is suggested that short-term feeding of protein concentrates to sheep before giving urea supplements can increase their tolerance to urea.

Published

1976

260. Tissue and subcellular localization of enzymes of arginine metabolism in Pisum sativum.

Author

Taylor AA and Stewart GR

Subjects

Chloroplasts enzymology, Glutamates metabolism, Ornithine metabolism, Subcellular Fractions enzymology, Acetyltransferases metabolism, Arginase metabolism, Arginine metabolism, Argininosuccinate Lyase metabolism, Carbamoyl-Phosphate Synthase (Glutamine-Hydrolyzing) metabolism, Ligases metabolism, Lyases metabolism, Ornithine Carbamoyltransferase metabolism, Plants enzymology, Transaminases metabolism

Published

1981

261. [Metabolism of ammonia and urea synthesis].

Author

Colombo JP

Subjects

Ammonia blood, Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Brain metabolism, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Carbonic Acid metabolism, Citric Acid Cycle, Digestive System metabolism, Glutamine metabolism, Humans, Kidney metabolism, Muscles metabolism, Ornithine Carbamoyltransferase metabolism, Ammonia metabolism, Urea biosynthesis

Published

1979

262. Urea cycle enzymes in human liver: ontogenesis and interaction with the synthesis of pyrimidines and polyamines.

Author

Karsai T and Elödi P

Subjects

Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Aspartate Carbamoyltransferase metabolism, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Carbamoyl-Phosphate Synthase (Glutamine-Hydrolyzing) metabolism, Female, Humans, Liver enzymology, Ornithine Carbamoyltransferase metabolism, Ornithine Decarboxylase metabolism, Pregnancy, Fetus enzymology, Liver embryology, Polyamines biosynthesis, Pyrimidines biosynthesis, Urea metabolism

Abstract

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 ornithine 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, carbamoylphosphate and aspartate pools are probably utilized in the polyamine, pyrimidine and urea syntheses at varying rates.

Published

1982

263. Dual regulation by arginine of the expression of the Escherichia coli argECBH operon.

Author

Kryzek RA and Rogers P

Subjects

Amidohydrolases metabolism, Arginine-tRNA Ligase metabolism, Argininosuccinate Lyase metabolism, Cell-Free System, Enzyme Repression, Escherichia coli metabolism, Leucine-tRNA Ligase metabolism, Ornithine metabolism, Protein Biosynthesis, RNA, Bacterial biosynthesis, RNA, Bacterial metabolism, RNA, Messenger biosynthesis, RNA, Transfer metabolism, Amidohydrolases biosynthesis, Arginine metabolism, Argininosuccinate Lyase biosynthesis, Escherichia coli enzymology, Genes, Regulator, Lyases biosynthesis, Operon

Abstract

The correlation between the level of messenger ribonucleic acid (mRNA) specific for the argECBH gene cluster (argECBH mRNA) measured by ribonucleic acid-deoxyribonucleic acid (RNA-DNA) hybridization and the rates of synthesis of N-acetylornithine deacetylase (argE enzyme) and of argininosuccinate lyase (argH enzyme) of Escherichia coli strain K-12 were determined for steady-state growth with and without added L-arginine and during the transition periods between these two states. During the transient period after arginine removal (transient derepression), the synthesis of enzymes argE and argH was initially three to five times greater than the steady-state derepressed rate finally reached 50 min later. The level of argECHB mRNA correlated well both quantitatively and temporally with the rates of enzyme synthesis during this transition. The level of in vivo charged arginyl-transfer RNA (tRNAarg), monitored simultaneously, was initially only 5 to 10% and gradually increased to a final level of 80% after 45 min. During the transient period after arginine addition (transient repression), the rates of synthesis of enzymes argE and argH decreased to almost zero and gradually reached steady-state repressed rates after about 180 min. The argECBH mRNA level remained constant at the steady-state repressed level throughout transient repression, revealing a discontinuity between the level of this mRNA and rates of enzyme synthesis. A similar discrepancy was noted during the transition after ornithine addition. In vivo charged tRNAarg remained constant at 80% during this transition. After removal of arginine, the zero-level transient enzyme synthesis developed after only 7.5 min of arginine deprivation and was maximum after 30 min. The results suggest an accumulation of a molecule regulated by arginine that plays a role in transient repression. Our data indicate that arginyl-tRNA synthetase is not this molecule since its synthesis was unaffected by arginine. The ratios of steady-state argE and argH enzyme synthesis without arginine to that with arginine were 12 and 20, respectively, whereas the similar ratio for argECBH mRNA was 2 to 3. The repressed level of argECBH mRNA was not affected by attempts to repress or derepress the ppc+ gene (carried on the DNA used for hybridization), and the repressed level of argECBH mRNA was lowered about 50% in cells carrying an internal argBH deletion. These data taken together indicate the presence of an excess of untranslated argECBH mRNA during both transient and steady-state repression by arginine. Thus, a second regulatory mechanism, not yet defined, appears to play an important role in arginine regulation of enzyme synthesis.

Published

1976

264. Urea cycle enzyme activity in lambs fed different nitrogen levels at low dietary intakes.

Author

Boling JA, Katanyukul PJ, and Nuzum CT

Subjects

Animals, Blood Urea Nitrogen, Liver metabolism, Male, Organ Size drug effects, Sheep, Arginase metabolism, Argininosuccinate Lyase metabolism, Diet, Liver enzymology, Lyases metabolism, Nitrogen, Ornithine Carbamoyltransferase metabolism, Urea

Abstract

Eleven Southdown male lambs averaging 19.8 kg were randomly allotted to two groups and fed diets containing 7.7% (low-N) or 15.8% (high-N) crude protein. All of the supplemental nitrogen in the high-N diet was supplied as urea. Intake of the low-N and high-N diets averaged 372.3 g and 340.5 g/day, respectively. Findings at the end of the thirty-day trial were: (1) mean body weights unchanged for the two groups; (2) plasma urea nitrogen three-fold higher in the high-N (19.07 mg/100 ml) than the low-N (6.57) animals; (3) similar hepatic activity levels of three urea cycle enzymes (ornithine transcarbamylase, argininosuccinase, arginase) in the two groups, and (4) similar liver weights and liver protein concentration. The absence of adaptive change in enzyme levels suggests the hypothesis that addition of non-protein nitrogen to maintenance diets may cause ammonia intoxication by exceeding the liver's reserve capacity for urea synthesis.

Published

1976

265. Adaptation to low protein intakes.

Subjects

Adaptation, Physiological, Alanine Transaminase metabolism, Animals, Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Aspartate Aminotransferases metabolism, Caseins administration & dosage, Glutamate Dehydrogenase metabolism, Half-Life, Rats, Urea metabolism, Dietary Proteins administration & dosage, Liver enzymology, Nitrogen metabolism

Published

1975

266. Urea cycle enzymes in retina, ciliary body-iris, lens and senile cataracts.

Author

Rao GN and Cotlier E

Subjects

Aged, Animals, Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Cattle, Humans, Middle Aged, Rabbits, Cataract enzymology, Ciliary Body enzymology, Iris enzymology, Lens, Crystalline enzymology, Retina enzymology, Urea biosynthesis

Abstract

Carbamylation of lens proteins induced conformational changes and may play a role in the development of cataracts in uremic patients. Thus, the activities of the urea cycle enzymes: carbamyl phosphate synthetase I, ornithine transcarbamylase, argininosuccinate synthetase, argininosuccinase and arginase, were determined in lens, retina and ciliary body-iris of calf and rabbit. No ornithine transcarbamylase activity was found in ciliary body-iris, lens and retina of calf and rabbit whereas carbamyl phosphate synthetase I, argininosuccinate synthetase, argininosuccinase and arginase activities in calf lens were 5.02 +/- 0.21, 9.50 +/- 0.29, 9.17 +/- 0.16 and 6.32 +/- 0.19 [mumol (g protein)-1 hr-1], respectively. Except arginase, the activities of carbamyl phosphate synthetase I, argininosuccinate synthetase and argininosuccinase in lens were 30-50% of the values in retina or ciliary body-iris. The Km for each of the substrates was obtained for argininosuccinate synthetase, argininosuccinase and arginase of calf lens. Activities of carbamyl phosphate synthetase I, argininosuccinate synthetase, argininosuccinase and arginase in clear human lenses, aged 67-87 years, were 0.11 +/- 0.01, 0.67 +/- 0.01, 0.20 +/- 0.01 and 0.58 +/- 0.03 (mumol lens-1 hr-1), respectively. Two-fold increase in the activity of arginase was found in senile cataracts, but all other enzymes had 36-87% decreases in activities. It is likely that the rise in arginase activity in cataracts could facilitate polyamine synthesis through ornithine and ornithine decarboxylase and additional formation of cyanate, a carbamylating compound, both of which have been implicated in cataract formation. Further, decreased activities of argininosuccinate synthetase and argininosuccinase together with increased arginase activity could lead to the depletion of arginine in senile cataracts.

Published

1984

267. Effect of protein level and supplemental lysine on growth and urea cycle enzyme activity in the pig.

Author

Rosebrough RW, Steele NC, and McMurtry JP

Subjects

Adipose Tissue anatomy & histology, Animals, Arginase metabolism, Argininosuccinate Lyase metabolism, Argininosuccinate Synthase metabolism, Muscles anatomy & histology, Swine metabolism, Dietary Proteins administration & dosage, Lysine pharmacology, Swine growth & development, Urea metabolism

Abstract

Two experiments were conducted with young, growing pigs to evaluate the effects of protein levels and supplemental lysine on growth, body characteristics and urea cycle enzyme activities. In the first experiment, 8-week-old pigs weighing 17 kg were fed two levels of protein (12 or 20%) until they reached slaughter weight of approximately 95 kg. In the second experiment, three levels of protein (12, 18 or 24%) and one level of additional lysine (9 g/kg of diet added to the 12% protein diet) were fed for the same interval. After slaughter, urea cycle enzyme activities (argininosuccinate synthetase, EC 6.3.4.5; argininosuccinate lyase, EC 4.3.2.1; and arginase, EC 3.5.3.1) were determined in liver homogenates. Early growth of pigs was improved by increasing the protein level (12%) but not by adding the limiting amino acid lysine to the 12% diet. The cross sectional area of the Longissimus dorsi muscle at slaughter was increased by protein level (12%) or by adding lysine to the 12% protein diet. In contrast, subcutaneous fat was decreased only by increasing the dietary protein level. The activities of arginase, argininosuccinate synthetase and argininosuccinate lyase were increased in a linear fashion by increasing the dietary protein level. In contrast, adding lysine to the 12% protein diet did not increase urea cycle enzyme activities.

Published

1983

268. Arg-7 mutant X wild-type crosses in Chlamydomonas reinhardi: study of the enzyme produced in diploid strains.

Author

Matagne RF

Subjects

Crosses, Genetic, Genetic Complementation Test, Argininosuccinate Lyase metabolism, Chlamydomonas enzymology, Diploidy, Lyases metabolism, Mutation

Abstract

The arg-7 locus is the structural gene for the argininosuccinate lyase (ASL). Interallelic complementation was previously found to occur between several mutants of the locus: this is indicative for the homomultimeric nature of ASL. Two complementing (arg-7-5 and arg-7-7) and two non-complementing (arg-7-1 and arg-7-6) mutants of the arg-7 locus were crossed to the pab-2 strain (which is wild-type for the arg-7 locus). In each cross, heterozygote phenotypically wild-type strains were isolated; their diploid pattern was demonstrated by various criteria: mating type, cell volume, nuclear size. The four heterozygotes were compared to the haploid wild-type and in some experiments, to the diploid strain arg-1 X pab-2 homozygous for the arg-7 locus. No difference was found in growth rate and in the Michaelis constant values for ASL. The specific activity of the enzyme produced in the heterozygotes was about 50 percent of the activity found in haploid or diploid wild-type. The heat sensitivity of ASL was also investigated in the different strains: two (containing the complementing mutations arg-7-5 and arg-7-7) of the four heterozygotes produce ASL varieties different from the wild-type enzyme as far as the thermolability is concerned. These results suggest that hybrid ASL can be formed by interaction between the products of wild-type and mutant genes. A clear dominance of the wild-type allele is expected only when the mutant allele has no product of the gene: this could be the case for arg-7-1 and arg-7-6.

Published

1976