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)

Amino acid starvation causes an adaptive increase in the initial rate of transport of selected neutral amino acids in an established line of rat hepatoma cells in tissue culture. After a lag of 30 min, the initial rate of transport of alpha-aminoisobutyric acid (AIB) increases to a maximum after 4 to 6 h starvation of 2 to 3 times that seen in control cells. The increased rate of transport is accompanied by an increase in the Vmax and a modest decrease in the Km for this transport system, and is reversed by readdition of amino acids. The enhancement is specific for amino acids transported by the A or alanine-preferring system (AIB, glycine, proline); uptake of amino acids transported by the L or leucine-preferring system (threonine, phenylalanine, tyrosine, leucine) or the Ly+ system for dibasci amino acids (lysine) is decreased under these conditions. Amino acids which compete with AIB for transport also prevent the starvation-induced increase in AIB transport; amino acids which do not compete fail to prevent the enhancement. Paradoxically threonine, phenylalanine, tryptophan, and tyrosine, which do not compete with AIB for transport, block the enhancement of transport upon amino acid starvation. The starvation-induced enhancement of amino acid transport does not appear to be the result of a release from transinhibition. After 30 min of amino acid starvation, AIB transport is either unchanged or slightly decreased even though amino acid pools are already depleted. Furthermore, loading cells with high concentrations of a single amino acid following a period of amino acid starvation fails to prevent the enhancement of AIB transport, whereas incubation of the cells with the single amino acid for the entire duration of amino acid starvation prevents the enhancement; intracellular amino acid pools are similar under both conditions. The enhancement of amino acid transport requires concomitant RNA and protein synthesis, consistent with the view that the adaptive increase reflects an increased amount of a rate-limiting protein involved in the transport process. Dexamethasone, which dramatically inhibits AIB transport in cells incubated in amino acid-containing medium, both blocks the starvation-induced increase in AIB transport, and causes a time-dependent decrease in transport velocity in cells whose transport has previously been enhanced by starvation.
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PMID:Derepression of amino acid transport by amino acid starvation in rat hepatoma cells. 1 7

The regulation of dihydrodipicolinate synthase (EC 4.2.1.52) and aspartate kinase (EC 2.7.2.4) was studied in Bacillus subtilis 168. Starvation for lysine gave depression of one aspartate kinase isoenzyme but not of dihydrodipicolinate synthase. Strains resistant to growth inhibition by the lysine analogue thiosine exhibited constitutively derepressed synthesis of one aspartate kinase isoenzyme but had normal levels of dihydrodipicolinate synthase. The data provide strong evidence that lysine is not the signal for derepression of dihydrodipicolinate synthase. Nevertheless, dihydrodipicolinate synthase specific activity increased during sporulation, and it is suggested that this increase may result, in part, from resistance to proteolysis of that enzyme.
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PMID:Regulation of dihydrodipicolinate synthase and aspartate kinase in Bacillus subtilis. 16 19

A study was made of the transport of a variety of amino acids by uninfected and Rous sarcoma virus-infected chicken embryo fibroblasts. Following a period of amino acid starvation, transformed, but not normal cells, showed increased levels of transport for alpha-aminoisobutyric acid, proline and alanine, three amino acids which are transported primarily by the A transport system. There was no starvation-induced increase in the transport of leucine, phenylalanine, lysine, or cycloleucine. In the absence of starvation, normal and transformed cells exhibited comparable rates of amino acid transport. Cycloheximide was able to block the increase in uptake. The enhanced uptake was characterized by an increase in Vmax for transport and little change in Km. The data demonstrate that an alteration in the regulation of the A amino acid transport system is an early event in malignant transformation by Rous sarcoma virus. However, since this alteration in made manifest only following a period of starvation, our findings suggest that increased amino acid uptake does not play a role in generating the other manifestations of the transformed state seen in cell culture.
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PMID:Amino acid transport in normal and Rous sarcoma virus-transformed chicken embryo fibroblasts. 22 76

Previously, we reported that starvation of Rel Escherichia coli for methionine, but not leucine or histidine, results in chromatographically unique species of aspartyl-specific transfer ribonucleic acid (tRNAAsp) lacking the modified nucleoside Q. The present studies demonstrate that methionine starvation of Rel+ E. coli yields a qualitatively similar, but less pronounced, effect. Furthermore, during recovery from methionine starvation in Rel E. coli, the chromatographic elution pattern of tRNAAsp shifts towards that observed for unstarved cells after 1 h of recovery, and the shift appears complete after 2 h of recovery. This shift is inhibited by rifampin. Incorporation of [2-14C]methionine or [methyl-3H]methionine into growing cells of E. coli does not result in labeling of nucleoside Q. We interpret these findings to indicate that methionine has an indirect role in Q formation and that Q-deficient tRNA can be modified slowly to contain Q but that transcription is required. The chromatographic elution patterns of tRNAAsp from Rel E. coli starved for arginine, lysine, or glutamic acid indicate that these amino acids are not the source of the three- or five-carbon sequences in the modified portion of Q.
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PMID:Role of methionine in the synthesis of nucleoside Q in Escherichia coli transfer ribonucleic acid. 33 22

The ribosomal proteins of 11 mutants which are sensitive to starvation at elevated temperature and of 36 transductants derived from them were studied with several electrophoretic, immunochemical and proteinchemical methods. The following results were obtained: (1) Ribosomal protein S8 is altered in three of these mutants. (2) The amino acid exchange in proteins S8 of mutant N4128 is Glu leads to Lys in position 59 of the protein chain. (3) Temperature sensitivity and inability to recover from starvation at elevated temperatures are caused by the same mutational event which is, however, unrelated to the alteration in protein S8. Several electrophoretic and immunological procedures were applied during the characterization of these mutants. A modified immunoelectrophoresis on cellulose acetate gels was developed, and proved to be the most applicable procedure for the detection of mutationally altered ribosomal proteins. This procedure may gain general importance for detecting mutational alterations in other proteins.
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PMID:Improved electrophoretic and immunochemical techniques for the identification and characterization of mutant proteins, applied to ribosomal protein S8 in Escherichia coli mutants. 34 Sep 33

Mutants of Salmonella typhimurium lacking protease II, an endoprotease with trypsin-like specificity, have been isolated. These mutants can be identified by using the chromogenic substrate N-methyl-N-p-toluenesulfonyl-L-lysine beta-naphthyl ester to screen colonies growing on agar for the presence of the enzyme. All of the mutations isolated map at locus tlp (typsin-like protease) which is cotransducible (approximately 1%) using phage P1 with tre (trehalose utilization) at approximately 58 min on the Salmonella map. Double mutants lacking both protease I and protease II have been constructed. These strains grew normally. They were able to degrade abnormal proteins and to carry out protein turnover during carbon starvation at the same rate as the wild type.
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PMID:Salmonella typhimurium mutants lacking protease II. 35 36

Arginase-minus mutants of Saccharomyces cerevisiae were arrested in growth and accumulated at the unbudded G-1 stage of the cell cycle when starved for nitrogen. If, however, arginine was added to the culture medium at the time of starvation, growth ceased but the cells did not collect at the unbudded G-1 stage. We suggest that arginine addition prevented the cells from collecting at the G-1 stage by starving them for histidine and lysine, thereby inhibiting synthesis of proteins needed to complete the cell cycle.
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PMID:Addition of basic amino acids prevents G-1 arrest of nitrogen-starved cultures of Saccharomyces cerevisiae. 37 55

A mutant of Bacillus subtilis which grew in complex medium at 30 degrees C but lysed at 45 degrees C has been isolated. It could only grow on minimal medium at 45 degrees C with added aspartate (20 microgram ml-1) but lysed if lysine (20 microgram ml-1) was also present. The requirement for aspartate was due to a low activity of pyruvate carboxylase; the site of the mutation (pyc) was linked (16% cotransducible using phage PBSI) to the pyrD locus, and the order of markers deduced was: pyrD-cysC-pyc. This defect appeared to lead to decreased synthesis of mesodiaminopimelic acid (mesoA2pm), an amino acid unique to peptidoglycan and its precursors. At the restrictive temperature the mutant accumulated uridine-5'-diphosphate N-acetylmuramyl-L-alanyl-D-glutamate, since meso A2pm is the next amino acid to be added to the growing peptide chain of peptidoglycan. This resulted in an inhibition of peptidoglycan synthesis, determined as a reduced incorporation of N-acetyl[14C]glucosamine. Peptidoglycan synthesis was not decreased if the mutant was grown in media containing aspartate but lacking lysine. The sensitivity to lysine may arise because (i) at 45 degrees C the mutant was starved for aspartate and hence mesoA2pm even when aspartate was present, since aspartate utilization, as estimated by the incorporation of [3H]aspartate into trichloroacetic acid precipitable material, was relatively inefficient; and (ii) this diminished level of mesoA2pm synthesis from aspartate was further curtailed since lysine inhibits one of the aspartokinases in B. subtilis. Thus, addition of lysine allowed protein synthesis and hence autolysin production to proceed whilst peptidoglycan synthesis remained inhibited. When autolysis was blocked, either indirectly by stopping protein synthesis through starvation of aspartate and lysine, or directly by introducing a lyt mutation, then shifting the mutant to 45 degrees C did not result in lysis but growth still ceased.
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PMID:A heat-sensitive lysis mutant of Bacillus subtilis 168 with a low activity of pyruvate carboxylase. 41 47

Lysine supplementation of the growth medium of a wild type strain of the yeast Saccharomycopsis lipolytica specifically results in saccharopine dehydrogenase repression. Starvation of the strain for histidine triggers a general depression of various histidine, leucine, arginine and lysine biosynthetic enzymes, including saccharopine dehydrogenase. These two types of control, specific and general, act independently on saccharopine dehydrogenase expression, since mutants which fail to respond to the specific control still are sensitive to the general one. These mutants were first selected as unable to catabolize lysine, suggesting that a link may exist between saccharopine dehydrogenase specific regulation and activity of the catabolic pathway.
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PMID:General and lysin specific control of saccharopine dehydrogenase levels in the yeast Saccharomycopsis lipolytica. 48 78

In agreement with the results obtained in Escherichia coli by other workers and our own previous data, the kinetics with which spontaneous mutations to resistance to the 12,13-epoxytrichothecene trichodermin accumulate in a lysine auxotroph of Schizosaccharomyces pombe are dependent upon the nutrilite used to limit the growth of the population. Under conditions of glucose-limitation mutation accumulation is proportional to generation time, while under lysine-limitation it becomes proportional to chronological time. In contrast to observations made in bacterial system, however, no significant change in the DNA content per cell is noted in slow growing cultures grown under amino acid starvation. These findings help to eliminate some of the theories put forward to explain the differential mutational responses observed under different growth limiting regimes.
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PMID:Mutation in continuous cultures of Schizosaccharomyces pombe II. Effect of amino acid starvation on mutational response and DNA concentration. 65 37

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