UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Repression of biosynthetic enzyme synthesis in Pseudomonas putida is incomplete even when the bacteria are growing in a nutritionally complex environment. The synthesis of four of the enzymes of the arginine biosynthetic pathway (N-acetyl-alpha-glutamokinase/N-acetylglutamate-gamma-semialdehyde dehydrogenase, ornithine carbamoyltransferase and acetylornithine-delta-transaminase) could be repressed and derepressed, but the maximum difference observed between repressed and derepressed levels for any enzyme of the pathway was only 5-fold (for ornithine carbamoyltransferase). No repression of five enzymes of the pyrimidine biosynthetic pathway (aspartate carbamoyltransferase, dihydro-orotase, dihydro-orotate dehydrogenase, orotidine-5'-phosphate pyrophosphorylase and orotidine-5'-phosphate decarboxylase) could be detected on addition of pyrimidines to minimal asparagine cultures of P. putida A90, but a 1-5- to 2-fold degree of derepression was found following pyrimidine starvation of pyrimidine auxotrophic mutants of P. putida A90. Aspartate carbamoyltransferase in crude extracts of P. putida A90 was inhibited in vitro by (in order of efficiency) pyrophosphate, CTP, UTP and ATP, at limiting but not at saturating concentrations of carbamoyl phosphate.
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PMID:Regulation of arginine and pyrimidine biosynthesis in Pseudomonas putida. 17 12

The phenotype of certain mutations in pyrA, the gene encoding carbamylphosphate synthetase (CPSase), is expressed only in the presence od exogenous arginine. In unsupplemented media, synthesis of carbamylphosphate and growth was almost normal; in arginine-containing media, synthesis of carbamylphosphate stopped, as did growth, as a consequence of starvation for pyrimidine. Genetic and biochemical evidence suggests that arginine exerts this inhibition by repressing the synthesis of ornithine carbamyltransferase (OTCase), the intracellular presence of which is required for assembly of the unequal subunits and proper functioning of the mutant CPSase. After the addition of arginine to a culture of the mutant, CPSase activity (glutamine dependent) characteristic of the intact holoenzyme progressively decreased, whereas activity (ammonia dependent) characteristic of the free large (alpha) subunit increased. Extracts of mutant cells contain free small (beta) subunits, as demonstrated directly by in vitro complementation using purified alpha subunits from wild type. The mutant enzyme from cultures grown in the presence of arginine had a markedly decreased affinity for adenosine 5'-triphosphate. Mutations in argR that cause depressed synthesis of OTCase suppressed the phenotype, and a certain mutation in argI, the gene encoding OTCase, enhanced it. In vitro experiments using purified enzyme confirm the stimulatory effect of OTCase on the activity of mutant CPSase.
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PMID:Arginine-sensitive phenotype of mutations in pyrA of Salmonella typhimurium: role of ornithine carbamyltransferase in the assembly of mutant carbamylphosphate synthetase. 18 93

Culturing of Salmonella typhimurium or Escherichia coli cells in the presence of low concentrations (</=1 mug/ml) of chloramphenicol (CAP) permitted exponential growth, but at doubling times up to twice those of controls. When such cultures were subsequently starved for uracil or arginine, derepression of aspartate transcarbamylase (ATCase) or ornithine transcarbamylase, respectively, was enhanced three- to 10-fold as compared to cultures not exposed to CAP. Enhancement of beta-galactosidase synthesis by prior exposure to CAP was also observed in uracil-starved E. coli cultures. Stimulation of enzyme synthesis appeared to be a specific effect of CAP; low levels of erythromycin, puromycin, sparsomycin, tetracycline, and rifampin did not show such effects. Derepression of ATCase synthesis in exponentially growing cells in the presence of CAP did not result in stimulation of enzyme synthesis by CAP. A prior history of growth of a culture in the presence of CAP was shown to be necessary for enhancement of enzyme synthesis by CAP; furthermore, continued presence of CAP in the medium during starvation was not necessary for enhanced enzyme synthesis and inhibited it in some instances. Enhanced enzyme synthesis in starving, CAP-treated cultures could be blocked by rifampin, which suggested that CAP treatment allows prolonged or more extensive messenger ribonucleic acid synthesis.
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PMID:Stimulation of derepressed enzyme synthesis in bacteria by growth on sublethal concentrations of chloramphenicol. 114 88

It has previously been shown that either phenylalanine codon, UUU or UUC, could be misread as leucine during phenylalanine starvation, if the codons encoded residue 8 of the Escherichia coli argI gene product, ornithine transcarbamylase (OTC). However, no leucine misincorporation was detected when either of these same codons encoded residue 3. Here we report that leucine misincorporation can be directed by a UUU codon for residue 3 of OTC during phenylalanine starvation, if the argI gene has been mutated so that the codon preceding the UUU has been changed from the rarely used glycine codon GGG to the more commonly used GGC.
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PMID:Misreading of the argI message in Escherichia coli. 128 83

The transcription and translation of operons for arginine biosynthetic enzymes after arginine removal (arginine down shift) were studied in relA and relA+ strains of Escherichia coli. After arginine down shift, derepression of synthesis of the arginine biosynthetic enzymes ornithine carbamoyltransferase (argF) and argininosuccinate lyase (argH) began at about 15 min in relA+ cells but was delayed in relA cells for more than 2 h. However, both relA+ and relA cells accumulated high levels of argCBH mRNA, as shown by dot blot hybridization, after arginine down shift. After 15 min of arginine limitation, the proportion of ribosome-bound argCBH mRNA was equivalent in both relA+ and relA cells. During the 15 min after the arginine down shift, relA+ cells produced a significant burst of argF and argH enzyme synthesis when arginine was added back to the culture, whereas relA cells did not produce this burst of enzyme synthesis. The relA cells regained the ability to produce a burst of argF and argH enzyme synthesis when alpha-methylglucose-induced glucose starvation was combined with arginine limitation. Significant guanosine 5'-diphosphate 3'-diphosphate accumulated in relA cells under this condition. Our results support the view that during periods of severe amino acid limitation guanosine 5'-diphosphate 3'-diphosphate acts in some way to ensure the translation of argCBH mRNA.
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PMID:Expression of arg genes of Escherichia coli during arginine limitation dependent upon stringent control of translation. 243 8

It has previously been shown that the phenylalanine codon UUC encoding residue 8 of the Escherichia coli argI gene product, ornithine transcarbamylase, is misread as leucine at a high frequency during phenylalanine starvation. However, no misreading of the UUU encoding residue 3 was observed under these conditions. Using oligonucleotide-directed, site-specific mutagenesis, we have constructed mutants where these codons have been changed. Using these mutant argI genes we see a high level of mistranslation at position 8 during phenylalanine starvation whether the codon is UUU or UUC. With either codon at position 3 we see no leucine substitution. We also constructed a gene with a leucine codon at position 3. The product of this latter mutated gene is stable and active, indicating that preferential turnover of mistranslated protein is not obscuring an otherwise high rate of misreading. This would seem to indicate that it is the context rather than the particular phenylalanine codon which is important in determining these misreading levels.
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PMID:Context specific misreading of phenylalanine codons. 268 41

We have constructed a series of deletion plasmids which contain the Aspergillus nidulans argB gene for ornithine carbamoyltransferase (OTC). These deletions comprise the 5' upstream sequence of the argB gene. The pro- arg- strain of A. nidulans was transformed with the above plasmids. Several arg+ transformants of integration types I and II, obtained using each of the deletion plasmids, were studied, and their ability to de-repress OTC level by proline starvation was compared. It was concluded that nucleotides located between -150 and -50 bp upstream of the argB gene are significant for its cross-pathway regulation. This regulatory region contains three copies of the TGACTC hexanucleotide which is a cis-acting regulatory sequence of general amino acid control in yeast.
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PMID:Regulatory region of the Aspergillus nidulans argB gene. 306 8

Translation of bacterial mRNA, divorced from transcription, has been obtained for enzymes of arginine synthesis; evidence has been acquired for repression by arginine at the level of translation. mRNAs for acetylornithinase and ornithine transcarbamylase were accumulated by arginine starvation of argR(+) and argR(-) arginine auxotrophs derived from Escherichia coli K12. Further transcription was inhibited with rifampicin or miracil D, and enzyme formation was measured in the presence of either an excess of, or a restricted supply of, arginine. For the argR(+) strain 961, little mRNA was found without starvation; for the argR(-) strain 977, a considerable amount of mRNA was demonstrated even without starvation. There was relatively little translation for the argR(+) strain, but not for the argR(-) strain, in the presence of excess arginine, apparently due to an accelerated degradation of mRNA in the argR(+) strain under repressive conditions.
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PMID:Translational repression in the arginine system of Escherichia coli. 492 18

The pattern of cross-pathway regulation of the arginine synthetic enzyme ornithine carbamoyltransferase was investigated in Neurospora crassa, using single and double mutant auxotrophic strains starved for their required amino acids. These experiments show that starvation for histidine, tryptophan, isoleucine, valine or arginine can result in derepression of ornithine carbamoyltransferase. Methionine starvation also gave slight derepression, but starvation for lysine or leucine gave little or no effect.
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PMID:Cross-pathway control of ornithine carbamoyltransferase synthesis in Neurospora crassa. 621 12

In yeast, as in other organisms, amino acid biosynthetic pathways share a common regulatory control. The manifestation of this control is that derepression of the enzymes belonging to several amino acid biosynthetic pathways follows amino acid starvation or tRNA discharging. The arginine anabolic and catabolic pathways are, in addition, regulated specifically by arginine in opposite ways by common regulators. We have measured the mRNA levels for four genes subject to the general amino acid control: HIS4, ARG3, ARG4 and CPAII and compared them to the corresponding enzyme levels. Similarly we have measured the mRNA levels for two genes subject to the arginine specific regulation: ARG3 and CAR1, the former gene belongs to the arginine anabolic pathway and the latter to the arginine catabolic one. HIS4, ARG4 and CPAII enzyme and messenger amounts are perfectly coordinated in all the conditions of general repression or derepression tested. However, arginine does not reduce the level of the ARG3 mRNA enough to explain the reduction of ornithine carbamoyltransferase activity nor does it increase the level of the CAR1 mRNA enough to explain the extent of induction of arginase. Coordination of enzyme and ARG3 mRNA is achieved only when the specific control is eliminated. The half-lives of the ARG3 and CAR1 messengers are enhanced in mutants leading to constitutive expression of ornithine carbamoyltransferase and arginase. These data suggest that the control that coordinates the synthesis of all the amino acids in the yeast cell operates at the level of transcription while the arginine specific regulatory mechanism seems to operate at a post-transcriptional level.
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PMID:Participation of transcriptional and post-transcriptional regulatory mechanisms in the control of arginine metabolism in yeast. 634 80

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