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)

A 90 min inhibition of protein synthesis induced by starvation for amino acids (AA-) or by treatment with chloramphenicol (CAP) prior to UV irradiation (2.5 Jm-2) increased the resistance of the strain Escherichia coli K12 SR19 to UV radiation more than ten-fold. Under these conditions, cultures in which protein synthesis was inhibited before the UV irradiation rejoin short regions of DNA synthesized after the irradiation to a normal-size molecule, whereas an exponentially growing culture does not rejoin DNA synthesized after UV irradiation to a molecule of a normal size. In the exponentially growing culture both the parental and the newly synthesized DNA are unstable after the irradiation. In cultures with inhibited protein synthesis only the parental DNA is somewhat unstable. In Escherichia coli K12 SR19 where protein synthesis was inhibited before the irradiation, a correlation between the survival of cells, the ability to rejoin short regions of DNA synthesized after UV irradiation and a higher stability of both parental and newly synthesized DNAs could be demonstrated.
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PMID:Correlation between survival, ability to rejoin DNA and stability of DNA after preirradiation inhibition of protein synthesis in a rec mutant of Escherichia coli K12. 32 Jan 14

Strains of Escherichia coli K12 have been constructed as safer hosts for use in recombinant DNA research, These strains are unable to survive passage through the intestinal tracts of rats because of a constellation of mutations conferring bile sensitivity and requirements for diaminopimelic acid and thymine. Since death caused by diaminopimelic acid deprivation could release recombinant DNA before DNA is degraded because of thymine starvation, it is important to determine the "survival potential" of the released DNA's. Bacterial and plasmid DNA's extracted from bacterial cells are rapidly degraded when added to low dilutions of rat intestinal contents. This observation, coupled with the stringent requirements necessary for in vitro transformation or transfection, make in vivo transmission of naked recombinant DNA in the rat intestinal tract highly improbable.
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PMID:Degradation of DNA by nucleases in intestinal tract of rats. 32 86

The structures of the major, chromatographically unique phenylalanine and leucine tRNAs produced during leucine starvation of a relaxed control (rel-) mutant of E. coli have been determined. The results demonstrate that the unique species are modification-deficient forms of the major, normally occurring isoacceptor species. The unique tRNAphe differs from the fully modified species at nucleotide positions 16, 37, 39, 47, and 55 from the 5' terminus. The unique species contains uridine (U) in place of dihydrouridine-16 (D16), isopentenyladenosine in place of 2-thiomethyl-N6-(delta2-isopentenyl)adenosine-37, a mixture of U and pseudouridine (psi) in position 39, a mixture of U and 3-(3-carboxypropyl)uridine at position 47, and a mixture of U and psi at position 55. The chromatographically normal isoacceptor from amino acid starved cells is deficient in D16 and psi55, indicating that that species is a mixture of mature and undermodified tRNAs. The unique tRNALeu isoacceptor consists of two subspecies which are undermodified forms of the major, normally occurring isoacceptor, tRNALeuI. Both unique subspecies lack the D and psi residues which occur at positions 16 and 39 from the 5' terminus; one subspecies also lacks D17. Compared with the tRNALeusI from wild-type strains of E. coli B and K12, both tRNALeuI from nonstarved cells and the unique, rel-tRNALeu are deficient in the modified guanosine which normally occurs adjacent to the anticodon and the pseudouridine in the GTpsiC sequence of the psi loop. Both the unique tRNAPhe and the unique tRNALeu lack dihydrouridine residues which occur in the 5' half of the D loop and pseudouridines which occur in the 3' half of the anticodon loop and adjoining stem. Taken together, these findings suggest that the same enzymes are responsible for the formation of these particular modified bases in both tRNAs. The results further suggest that several, perhaps most, of the tRNAs from cells cultured under conditions in which RNA and protein synthesis are uncoupled will be similarly deficient in dihydrouridine and pseudouridine and other minor nucleosides which occur less frequently. Because both modification-deficient rel-tRNAs have dihydrouridine at position 20 and pseudouridine in the psi loop (and at position 41 in the unique tRNALeu), the results support the view that there was multiple D-and psi-forming enzymes in E. coli, some of which may turn over rapidly or are selectively inactivated when protein synthesis is blocked. The results are discussed with a view toward understanding the structural basis for the altered biological activity of the unique tRNAPhe species and the order of events in the posttranscriptional modification of newly synthesized tRNA.
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PMID:Modification-deficient transfer ribonucleic acids from relaxed control Escherichia coli: structures of the major undermodified phenylalanine and leucine transfer RNAs produced during leucine starvation. 32 16

Starvation of Escherichia coli K12 for an amino acid results in the stimulation of bacterial glycogen synthesis in cells containing the relA+ gene, but not in cells carrying the relA- allele. Similarly, a large difference in glycogen content is demonstrable between relA+ and relA- cells in stationary phase. It is concluded that guanosine 5',3' -bis(diphosphate) (ppGPP) or some related relA -dependent metabolite is involved in the regulation of bacterial glycogen synthesis. Detection of significant basal levels of glycogen in a relA- strain of E. coli and in unstarved relA+ C. coli indicates that relA control is not absolutely required for glycogen synthesis but serves as a signal for modulation in response to nutrient availability.
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PMID:relA Gene control of bacterial glycogen synthesis. 35 87

Ferrichrome-promoted iron uptake in Escherichia coli K12 is strictly dependent upon the tonA gene product, a 'minor' outer membrane protein. By selection for mutants of E. coli resistant to phages which require 'major' outer membrane proteins as receptors, strains with pronounced protein deficiencies were constructed. Such strains were tested for anomalous behaviour of ferrichrome transport. No significant differences in iron uptake were detected in E. coli K12 strains with markedly reduced amounts of protein I. However, a reduction in the initial velocity (up to 40%) was observed in E. coli deficient in outer membrane protein II. This difference was only evident when cells were grown under iron-starvation conditions; it was abolished when cells were grown in rich medium. Kinetic parameters for ferrichrome transport were determined for maximum velocity but for Km; double reciprocal plots showed a biphasic nature, probably attributable to a limited number of outer membrane binding sites and to the multi-component nature of the ferrichrome-iron transport system.
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PMID:Protein II influences ferrichrome-iron transport in Escherichia coli K12. 37 90

Escherichia coli K12 Hfr H Tsxs Strs and F- Pro- Tsxr His- Arg- Strr bacteria were conjugated in the absence of arginine with or without glucose. The efficiency of conjugation, measured by the frequency of Pro+ and His+ recombinants was not affected. Arginine starvation alone did not affect the tsxs gene expression which occurred in all the zygotes which had received the gene. In contrast, argine and glucose starvation allows tsxs expression only in those zygotes in which the donor gene had been integrated in the genome. As the glucose starvation brings on a destabilization of the messenger RNA synthesized by the F- cells in absence of arginine, the results can be interpreted as follows: the transferred tsxs genes are transitorily expressed in all the zygotes at the unintegrated state. After this transient period, only thsoe genes integrated in the chromosomes of the zygotes continue to be expressed.
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PMID:Effect of glucose starvation on the expression of transferred tsx genes in Escherichia coli K12 zygotes. 78 25

There is a difference in the extent of inhibition of thymine dimers (TT) excision in ultravioley (UV) irradiated cells of E. coli after preirradiation depression of protein and DNA syntheses induced by a simultaneous deprivation of essential amino acids (AA-) and thymine(T-) or by deprivation of essential amino acids and addition of nalidixie acid (NAL+). This difference has been noted in both E. coli B/r Her+ and E. coli K12 SR20 uvr+ cells. Depression of DNA synthesis with the aid of malidixic acid as exogenous agent will inhibit TT excision to a lesser degree than depression of DNA synthesis by thymine starvation. The extent of TT excision has no appreciable influence on restoration of the sedimentation profile of newly synthesized DNA nor again on UV resistance of cells in conditions of dark repair. At the time when there are TT still present in DNA, the DNA molecule, having the size of the molecule of unirradiated cells, will become synthesized.
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PMID:Comparison of the effect of nalidixic acid and thymine deprivation on excision repair in Escherichia coli. 109 65

It had been found earlier that the excision repair mechanism in E. coli B/R Hcr+ could be depressed by preirradiation, amino acid and thymine starvation; such an interference proved to have no appreciable influence on survival after ultraviolet irradiation. A comparison between Hcr+ and Hcr- cells had revealed that the former were capable of tolerating a greater amount of unexcised dimers than the latter. In this paper it is demonstrated that the above-mentioned pretreatment will depress excision activity also in cultures of E. coli K12 and E. coli 15T- both strains of the uvr+ rec+ genotype. A comparison of two E. coli K12 strains of the uvr+ and uvr- genotype shows that uvr+ cells also have a greater capacity to tolerate unexcised dimers. To throw light on the nature of that increased capacity to tolerate unexicsed dimers we have compared restoration of DNA daughter chains in cells of the uvr+ and uvr- genotype and found that integrity of uvr loci is a conditio sine qua non for an effective restoration of daughter chains, but that depression of excision activity by the mentioned pretreatment does not influence restoration of DNA daughter chains. This suggest that uvr loci are involved not only in excision but also in postreplication mechanism of DNA repair.
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PMID:Function of the UVR marker in dark repair of DNA molecules. 110 8

Conditions, such as anoxia or glucose starvation, which induce the glucose-regulated set of stress proteins also lead to resistance to adriamycin (J. Shen, C. Hughes, C. Chao, J. Cai, C. Bartels, T. Gessner, and J. Subjeck, Proc. Natl. Acad. Sci. USA 84:3278-3282, 1987) and etoposide. We report here that chronic anoxia, glucose starvation, 2-deoxyglucose, the calcium ionophore A23187, glucosamine, ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA), and tunicamycin (all specific inducers of the glucose regulated system) lead to a rapid and selective depletion of topoisomerase II from isolated nuclei of Chinese hamster ovary cells. This effect precedes a decline in tritiated thymidine incorporation and a redistribution of cells from S into G1/G0. The depletion of the enzyme is not accompanied by a decline in mRNA levels. We have also examined the mutant Chinese hamster K12 cell line which is temperature sensitive for expression of glucose-regulated proteins. When nuclei were isolated from K12 cells incubated at the nonpermissive temperature, a loss of topoisomerase II was again observed in congruence with the expression of stress proteins and cellular resistance to etoposide. These changes were not obtained in parental Wg1A cells incubated at the same temperature. These studies indicate that topoisomerase II is highly sensitive to glucose-regulated stresses and that its depletion from the nucleus, with the associated changes in cell cycle parameters, may represent general characteristics of the glucose-regulated state. Since anoxia and glucose starvation can occur during tumor development, this pathway for expression of drug resistance may have clinical ramifications.
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PMID:Depletion of topoisomerase II in isolated nuclei during a glucose-regulated stress response. 255 89

Cytosine deaminase, encoded by the codA gene in Escherichia coli catalyzes the deamination of cytosine to uracil and ammonia. Regulation of codA expression was studied by determining the level of cytosine deaminase in E. coli K12 grown in various defined media. Addition of either pyrimidine or purine nucleobases to the growth medium caused repressed enzyme levels, whereas growth on a poor nitrogen source such as proline resulted in derepression of cytosine deaminase synthesis. Derepression of codA expression was induced by starvation for either uracil or cytosine nucleotides. Nitrogen control was found to be mediated by the glnLG gene products, and purine repression required a functional purR gene product. Studies with strains harbouring multiple mutations affecting both pyrimidine, purine and nitrogen control revealed that the overall regulation of cytosine deaminase synthesis by the different metabolites is cumulative.
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PMID:Pyrimidine, purine and nitrogen control of cytosine deaminase synthesis in Escherichia coli K 12. Involvement of the glnLG and purR genes in the regulation of codA expression. 267 19

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