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)

1. Mg(2+) or Mn(2+) starvation causes suspensions of Bacillus subtilis strain W 23 to accumulate bound amino sugars that are soluble in trichloroacetic acid. 2. The presence of chloramphenicol or puromycin produces higher intracellular concentrations of amino sugars during Mg(2+) starvation, but neither compound can stimulate the accumulation when Mg(2+) is present. 3. The major component of the amino sugar fraction extracted from cells deprived of Mg(2+) is a nucleotide containing uridine, phosphorus, N-acetylmuramic acid, alanine, glutamic acid and alphain-diaminopimelic acid in the molar proportions of 1:2:1:3:1:1. This compound represents at least 80% of the bound N-acetylhexosamine extracted by trichloroacetic acid. 4. Studies of the binding of this nucleotide with vancomycin support the proposal that it is the mucopeptide precursor UDP-N-acetylmuramyl-l-alanyl-d-glutaminyl- alphain-diaminopimelyl-d-alanyl-d-alanine. 5. A method is described for the isolation of this material labelled with [(3)H]alphain-diaminopimelic acid. 6. When Mg(2+) is supplied to cells previously starved of Mg(2+), the accumulated pool of amino sugars rapidly decreases. 7. The biosynthesis of mucopeptide is inhibited by 35-50% under conditions of Mg(2+) starvation. The presence of EDTA increases this inhibition to 70%. The amount of N-acetylhexosamine that accumulates is balanced exactly by the associated fall in mucopeptide synthesis. 8. ;Chase' experiments show that the accumulated N-acetylhexosamine compound is utilized in mucopeptide synthesis.
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PMID:The effect of magnesium ion deprivation on the synthesis of mucopeptide and its precursors in Bacillus subtilis. 498 84

A method has been developed for inducing spherule formation (spherulation) in the myxomycete Physarum polycephalum by transferring the culture to synthetic medium containing 0.5 m mannitol or other polyols. This morphogenetic process occurred within 12 to 35 hr after the inducer was added. The mature spherules existed as distinct morphogenetic units, in contrast to the clusters of spherules formed during starvation. Ninety per cent of the spherules germinated by 24 hr in synthetic medium. The changes in the synthesis of ribonucleic acid (RNA), deoxyribonucleic acid (DNA), and protein during plasmodial growth, spherulation, and germination of spherules are described. When spherule formation was completed, RNA, protein, and DNA decreased, compared with the values at the beginning of the conversion. The incorporation of (3)H-uridine into trichloroacetic acid-insoluble material was different in each of these periods, and this incorporation was sensitive to actinomycin D. The amount of glycogen increased during growth, whereas it decreased during spherulation. (14)C-glucose could be taken up by the cells in the presence of the inducer, and mannitol could not replace glucose as a source of energy. The mode of action of mannitol and its mechanism of induction are discussed.
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PMID:Induction of spherule formation in Physarum polycephalum by polyols. 538 34

Two carbamyl phosphate synthetases, the first an arginine-synthetic enzyme (CPS(arg)) and the second a pyrimidine-synthetic enzyme (CPS(pyr)), are shown to be present in Neurospora. The two enzymes can be separated on the basis of size and are distinguished by several different properties. Both CPS(pyr) and CPS(arg) have substrate requirements of adenosine triphosphate, HCO(3) (-), and l-glutamine, although NH(4) (+) in high concentration will partially replace glutamine. CPS(pyr) activity can be completely inhibited by 5 x 10(-4) to 10 x 10(-4)m uridine triphosphate (UTP). CPS(pyr) is cold-labile and can be protected against cold inactivation by UTP. The synthesis of CPS(pyr) and aspartate transcarbamylase (ATC), the initial enzymatic steps of the pyrimidine pathway, are co-derepressed by pyrimidine starvation. Mutations affecting CPS(pyr) and ATC all map at the same locus, pyr-3. Three classes of mutants with respect to the two activities were found: CPS(+)ATC(-), CPS(-)ATC(+), and CPS(-)ATC(-). The distribution of these mutants on the genetic map, together with other data, indicate that the two activities are carried by a bifunctional protein.
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PMID:Pyrimidine-specific carbamyl phosphate synthetase in Neurospora crassa. 543 4

Glycogen phosphorylase was isolated from cells of Dictyostelium discoideum in the culmination stage of development and purified 35-fold. The enzyme had a pH optimum of 6.9 and contained sulfhydryl groups essential for activity. The K(m) values for phosphate and glycogen were 3 mm and 0.06% (w/v), respectively. No dependence on, or stimulation by, any nucleotide was observed and a wide variety of nucleotides and glycolytic intermediates did not inhibit the enzyme. Nucleotide sugars competitively inhibited the enzyme. Guanosine diphosphoglucose and adenosine diphosphoglucose were the most effective, and uridine diphosphoglucose was the least effective of the nucleotide sugars tested. The specific activity of glycogen phosphorylase increased from about 0.004 unit per mg of protein in aggregating cells to about 0.024 unit per mg in culminating cells, and then decreased during sorocarp formation. This increase in enzyme specific activity during the starvation and aging of the system can account for the increased rate of glycogen degradation during this period of development. Amylase specific activity, measured at pH 4.8 and 6.9, varied between 0.005 and 0.013 unit per mg of protein during all stages of development.
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PMID:Partial purification and characterization of glycogen phosphorylase from Dictyostelium discoideum. 553 Aug 13

The biosynthesis of 2'-deoxyuridine monophosphate (dUMP) has been studied in a cytidine- and uracil-requiring mutant of Salmonella typhimurium (DP-55). The dUMP pool and the thymidine monophosphate (dTMP) pool of DP-55, grown in the presence of (3)H-uracil and unlabeled cytidine, are found to have the same specific activities. However, only 30% of the dUMP and the dTMP is synthesized from a uridine nucleotide. Seventy per cent is derived directly from a cytosine compound. The identification and partial purification of a Mg(2+)-dependent 2'-deoxycytidine triphosphate (dCTP) deaminase from S. typhimurium suggests that the combined action of dCTP deaminase and 2'-deoxyuridine triphosphate pyrophosphatase accounts for 70% of the dUMP, and therefore the dTMP, synthesized in vivo. The introduction of a thymine requirement (i.e., a block in thymidylate synthetase) into DP-55 results in a 100-fold increase in the size of the dUMP pool. However, the relative contribution of the uridine and cytidine pathways to dUMP synthesis is unaltered. The high dUMP pool is accompanied by extensive catabolism of dUMP to uracil. Partial thymine starvation of the cells results in a significant increase in the dUMP and dCTP pools. Moreover, an increase in the contribution of the dCTP pathway to dUMP synthesis is observed. As a result of these changes the catabolism of dUMP to uracil is augmented.
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PMID:Deoxycytidine triphosphate deaminase: identification and function in Salmonella typhimurium. 554 39

RNA metabolism has been examined in intact adipose tissue and isolated fat cells from rats. The lipocyte contains three species of RNA with sedimentation rates corresponding to those of ribosomal and transfer RNA. The de novo biosynthesis of RNA by adipose tissue cells in vitro was demonstrated. The base ratios of the RNA formed indicate that it was synthesized from a DNA template. Actinomycin D administered in vivo and in vitro decreased total RNA synthesis with the most marked effect on the synthesis of the heavy RNA components. Actinomycin D or puromycin added in vitro was not toxic: they did not inhibit total fatty acid biosynthesis or glucose utilization by the fat pad nor did they inhibit the immediate stimulation of fatty acid biosynthesis and glucose uptake by the addition of insulin in vitro. Starvation for 48-72 hr significantly depressed the synthesis of the heavy RNA components as measured by in vitro uridine incorporation into the individual RNA classes. Refeeding the fasted rat with glucose repaired the defect in RNA biosynthesis before the biosynthesis of monoenoic fatty acid was completely restored. Actinomycin D administered at the time of refeeding prevented the repair of monoenoic fatty acid synthesis. It is concluded that RNA metabolism is intimately involved in the control of biosynthetic reactions in adipose tissue.
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PMID:RNA biosynthesis in adipose tissue: effect of fasting. 594 42

Although no beta-galactosidase activity could be induced in Escherichia coli K12 during uridine starvation, material which cross-reacted with antiserum against beta-galactosidase could be detected. The synthesis of enzymically inactive proteins during uridine starvation appeared to be due to errors in transcription.
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PMID:Mis-transcription during uridine starvation in Escherichia coli K12. 615 19

The uptake of nucleosides and the synthesis of RNA in Tetrahymena thermophila were examined following amino acid starvation. Omission of leucine, phenylalanine, or arginine from the medium resulted in a rapid decrease in the incorporation of [3H]uridine into the acid-soluble pool and acid-insoluble material (RNA). Amino acid starvation inhibited the uptake of all ribo- and deoxyribonucleosides tested but did not affect the uptake of amino acids or glucose. In addition, under the conditions used, the omission of an amino acid did not result in a large decrease in amino acid incorporation into total protein. Treatment of cells with cycloheximide or emetine gave results similar to the effects of amino acid starvation, but in these experiments the inhibition of protein synthesis was essentially complete. Nucleotide pool sizes were also measured following amino acid starvation. ATP and UTP levels were essentially unchanged, but the dTTP pool size was decreased by 40%. The decrease in RNA synthesis in vivo in the absence of an essential amino acid was reflected in the endogenous RNA synthetic activity of isolated nuclei. However, when solubilized RNA polymerase activity was measured with calf thymus DNA as template, no significant difference was observed between control and amino acid-starved cells.
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PMID:The effect of amino acid starvation on nucleoside uptake and RNA synthesis in Tetrahymena. 615 97

During uridine starvation in Escherichia coli K12, the rate of RNA accumulation comes down to about 7% of the nonstarved rate. This is achieved, in part, by an eight-fold increase in the assembly time of stable RNA molecules. However, the assembly time of mRNA molecules is not enhanced as much, being longer by a factor of 3 in starved cells compared to nonstarved ones. It, therefore, appears that the rate of synthesis of these two RNA species is noncoordinately controlled during uridine starvation. This control does not seem to be mediated by guanosine tetraphosphate.
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PMID:Noncoordinate control of the synthesis of different species of RNA in Escherichia coli K12 during uridine starvation. 615 81

Aminoimidazole carboxamide ribonucleoside (AIC-R), a purine precursor, has biphasic effects on the growth of Chinese hamster fibroblasts. At 200 microM AIC-R cell growth is almost completely arrested, while at 50 and 700 microM AIC-R cell growth is comparable to that observed in the absence of nucleoside. The growth inhibition produced by AIC-R is the consequence of inhibition of the orotate phosphoribosyltransferase-orotidylic decarboxylase (OPRT-ODC) reactions, as evidenced by a 87% reduction in the intracellular concentrations of UTP and CTP, accumulation of orotate in the medium, and restoration of normal growth by inclusion of 100 microM uridine in the medium. Inhibition of pyrimidine nucleotide synthesis at 200 microM AIC-R is associated with an 82% reduction in the intracellular concentration of PP-ribose-P and a 150% increase in the concentration of purine nucleotides. Restoration of cell growth to a normal rate at 700 microM AIC-R--a condition under which PP-ribose-P remains depressed and purine nucleotide concentrations are also depressed (40% of control)--and absence of toxicity at 50 microM AIC-R--a condition under which purine nucleotide concentrations are increased by 150% and PP-ribose-P concentration is normal--suggest that the inhibition of OPRT-ODC observed at 200 microM AIC-R is caused by the combination of the reduction in PP-ribose-P and increase in purine nucleotides. These studies provide a better understanding of the control of the OPRT-ODC reactions in the cell and provide additional insight into the basis of pyrimidine starvation induced by purine nucleosides.
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PMID:Aminoimidazole carboxamide ribonucleoside toxicity: a model for study of pyrimidine starvation. 616 28

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