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)

About 50% of the SV40 DNA in the process of replication (sv40(ri) dna) completed replication in lysates of infected BSC-1 cells by conversion to covalently closed, superhelical SV40 DNA (SV40(I) DNA). Fractionation of the lysate into nuclear and cytoplasmic components blocked 99% of the synthesis of SV40(I) DNA in the purified nuclei. The reconstituted system, made by adding back the cytoplasmic fraction before incubation at 30 degrees, completely restored the in vitro level of SV40(I) DNA synthesis. Preliminary characterization of the activity found in the cytoplasmic fraction suggested it was a soluble, heat-labile protein (or proteins) with a minimum molecular weight of about 30,000 and an active sulfhydryl group. The activity was present in both infected and uninfected monkey cells, and at a lower level in mouse, hamster, and human cell lines. Neither serum starvation nor cycloheximide treatment of cells diminished the activity in the cytoplasmic fraction. Purified cytoplasmic DNA polymerase from KB cells did not substitute for the cytoplasmic fraction which was required for elongation of newly synthesized DNA strands. In the absence of the cytoplasmic fraction, conversion of 4 S DNA into longer strands was inhibited, and SV40(RI) DNA appeared to be broken specifically at the replication forks.
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PMID:Requirement of a Cytoplasmic Fraction for Synthesis of SV40 Deoxyribonucleic Acid in Isolated Nuclei*. 16 98

Terminal deoxynucleotidyl transferase (TdT) is a template-independent DNA polymerase that is transiently expressed during the normal development of T and B lymphocytes. Phorbol 12-myristate 13-acetate (PMA) has been reported to induce maturation-like changes, including the loss of TdT, in many leukemic cell lines. We investigated the mechanism of TdT repression by PMA in an early thymocyte-like cell line, RPMI 8402. At a concentration of 8 nM, PMA caused both repression of TdT synthesis and arrest of proliferation. At greater concentrations of PMA, these same changes initially occurred, but then cell proliferation resumed, and TdT was reexpressed. At both 8 and 160 nM PMA, TdT biosynthesis and TdT mRNA became undetectable within 8 hours, while cell proliferation and DNA synthesis were not significantly reduced until 16 hours. Growth arrest induced by serum starvation did not result in a similar reduction of TdT RNA even after 48 hours. With 160 nM PMA, TdT mRNA could be detected again by 24 hours, and proliferation resumed. Transcription run-off assays indicated that TdT RNA synthesis ceased within 1 hour after exposure to both 8 and 160 nM PMA. T cell receptor alpha (TcR alpha) RNA was induced when TdT RNA was repressed. TcR beta RNA levels were unchanged, and TcR gamma RNA was up-regulated. TdT gene repression and modulation of cell proliferation as well as induction of TcR gene expression are normal events during intrathymic T cell maturation. This cell model provides a system for analyzing the molecular regulation of these significant developmental events.
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PMID:Phorbol ester regulation of terminal deoxynucleotidyl transferase, proliferation, and TcR alpha in a pre-T cell line. 213 60

Previous results from this laboratory have shown that thymidylate deprivation results in dramatic elevation of intracellular dUTP and incorporation of dUMP into DNA. The goal of the present studies was to determine whether the latter changes may play a part in the associated cytotoxicity ("thymineless death"), which is ordinarily assumed to be a direct result of reduced intracellular dTTP. The approach used here was to increase intracellular dUTP without allowing dTTP to diminish and observe the effects on cell viability. dUMP pools were expanded by exposure of cells to deoxyuridine [in cell growth medium containing hypoxanthine, methotrexate, and thymidine (HAT medium)], resulting in accumulation of dUTP to levels that approached those of dTTP, which were at, or higher than, the levels in untreated cells. In conjunction with this the cells became nonviable, and newly synthesized DNA was fragmented, both of which occur with thymidylate depletion and, we assume, result from the active process of excision repair at the many uracil-containing sites in DNA. The results indicate that, although the relative importance of low dTTP remains unknown, elevated dUTP can account for the cytotoxicity caused by thymidine starvation. Most of the "dTTP" measured by the DNA polymerase assay in cells treated with methotrexate (MTX) (plus purine supplement) was, in fact, dUTP, which may explain some previous observations of only modest depression of dTTP in cells treated with MTX or similarly acting drugs.
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PMID:DNA fragmentation and cytotoxicity from increased cellular deoxyuridylate. 352 74

Treatment of the eukaryotic organism Tetrahymena with various types of DNA-damaging agents has been reported to cause a 35-fold induction of a mitochondrial DNA polymerase. We here report that the enzyme can be induced in large-scale cultures by exposure of the cells to thymine starvation and/or intercalating agents. The induced DNA polymerase has been purified to near homogeneity, with a specific activity of approx. 300,000 units/mg protein. The relative molecular mass of the active form of the enzyme is approx. 100,000, as determined by glycerol gradient sedimentation. The subunit structure has been analysed by SDS polyacrylamide gel electrophoresis of the highly purified preparation and by immunoprecipitation with a monoclonal antibody directed to the DNA polymerase. A polypeptide of Mr 47,000 has been observed to be a subunit of the enzyme. This corresponds to the size of the subunits suggested for mitochondrial DNA polymerase from chicken embryos and mouse myeloma cells.
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PMID:Purification and characterization of an inducible mitochondrial DNA polymerase from Tetrahymena thermophila. 381 2

The effects of 1-4 days of fasting and 3-24 h of refeeding of 4-day fasted rats on the rate of [3H]-thymidine incorporation into DNA in vitro (referred to as DNA synthesis) and the activity of thymidine kinase and DNA polymerase were measured in the oxyntic gland mucosa. Ad libitum fed rats served as control. Starvation for 1-4 days significantly depressed the activity of mucosal thymidine kinase (39-58%) and DNA polymerase (26-36%), when compared with the initially fed control. Mucosal DNA synthesis, measured in 3- and 4-day fasted rats, was also markedly decreased (80-90%) compared to the fed control. Refeeding of 4-day fasted rats significantly stimulated DNA synthesis and the activity of thymidine kinase and DNA polymerase. However, whereas DNA polymerase and thymidine kinase attained their respective peak activity (84 and 340% above the 4-day fasted level) after 3 and 6 h of refeeding, DNA synthesis was significantly stimulated (700% above the 4-day fasted control) after 9 h of refeeding. Administration of actinomycin-D prior to refeeding reduced the magnitude of stimulation of mucosal thymidine kinase and the rate of DNA synthesis, but had no effect on DNA polymerase activity which was found to be stimulated to the level of non-antibiotic treated rats. The current results demonstrate that following refeeding mucosal DNA polymerase and thymidine kinase activities are increased before DNA synthesis is significantly stimulated. Blocking of the maximal stimulation of mucosal thymidine kinase lowers the magnitude of the subsequent rise in DNA synthesis caused by refeeding.
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PMID:Regulation of gastric mucosal DNA synthesis during fasting and refeeding in rats. 688 85

Translation of ribosomal protein (rp) mRNA is selectively repressed in mouse erythroleukemia (MEL) cells, which cease to proliferate upon differentiation, and in NIH 3T3 cells, for which growth is arrested by either serum starvation, contact inhibition, or treatment with the DNA polymerase inhibitor, aphidicolin. The efficiency of translation of rp mRNAs correlates with the expression of the gene encoding the cap binding protein, eIF-4E, as indicated by the fact that the abundance of the corresponding mRNA and protein also fluctuates in a growth-dependent manner. To examine the hypothesis that eIF-4E plays a role in regulation of the translation efficiency of rp mRNAs, we utilized an NIH 3T3-derived eIF-4E-overexpressing cell line. These cells overproduce eIF-4E to the extent that even under conditions of growth arrest, the abundance of the respective protein in its active (phosphorylated) form is higher than that found in exponentially growing NIH 3T3 cells. Nevertheless, this surplus amount of eIF-4E does not prevent the translational repression of rp mRNAs when the growth of these cells is arrested by blocking DNA synthesis with aphidicolin or hydroxyurea. In complementary experiments we used an in vitro translation system to compare the competitive potential of mRNAs, containing the translational cis-regulatory element (5' terminal oligopyrimidne tract) and mRNAs lacking such a motif, for the cap binding protein. Our results demonstrate that both types of mRNAs, regardless of their translational response to growth arrest, exhibit similar sensitivity to the cap analogue m7G(5')ppp(5')G. It appears, therefore, that the presence of the regulatory sequence at the 5' terminus of rp mRNAs does not lessen its competitive potential for the cap binding protein and that the growth-dependent decrease in the activity of eIF-4E does not play a key role in the repression of translation of rp mRNAs.
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PMID:Overexpression of initiation factor eIF-4E does not relieve the translational repression of ribosomal protein mRNAs in quiescent cells. 778 16

All herpes simplex virus (HSV) infected cell-specific polypeptides (ICSPs) were synthesized in the presence of lithium at a concentration (60 mM) inhibitory to the production of infectious virus. Yields of certain ICSPs were increased and others, in particular glycoprotein C, decreased. HSV DNA synthesis was completely inhibited; synthesis and in vitro activities of HSV DNA polymerase and thymidine kinase were decreased but to a degree insufficient to account for the complete inhibition of HSV DNA synthesis. HSV DNA synthesis was inhibited to an equivalent degree by either incubation with 60 mM-lithium or by potassium starvation; both procedures decreased intracellular potassium by an equivalent amount as adjudged by X-ray microanalysis. We conclude that lithium inhibits HSV DNA synthesis by displacement of potassium from a potassium-dependent biochemical reaction or by other physiological changes brought about by the loss of cellular potassium. The possibility that lithium also directly inhibits a virus replicative event cannot be excluded.
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PMID:The effects of lithium and potassium on macromolecular synthesis in herpes simplex virus-infected cells. 839 11

Cds1, a serine/threonine kinase, enforces the S-M checkpoint in the fission yeast Schizosaccharomyces pombe. Cds1 is required for survival of replicational stress caused by agents that stall replication forks, but how Cds1 performs these functions is largely unknown. Here we report that the forkhead-associated-1 (FHA1) protein-docking domain of Cds1 interacts with Mus81, an evolutionarily conserved damage tolerance protein. Mus81 has an endonuclease homology domain found in the XPF nucleotide excision repair protein. Inactivation of mus81 reveals a unique spectrum of phenotypes. Mus81 enables survival of deoxynucleotide triphosphate starvation, UV radiation, and DNA polymerase impairment. Mus81 is essential in the absence of Bloom's syndrome Rqh1 helicase and is required for productive meiosis. Genetic epistasis studies suggest that Mus81 works with recombination enzymes to properly replicate damaged DNA. Inactivation of Mus81 triggers a checkpoint-dependent delay of mitosis. We propose that Mus81 is involved in the recruitment of Cds1 to aberrant DNA structures where Cds1 modulates the activity of damage tolerance enzymes.
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PMID:Damage tolerance protein Mus81 associates with the FHA1 domain of checkpoint kinase Cds1. 1107 77

Adaptive mutations are characterised as the outcome of an as yet unknown mechanism, which allows a few individuals of a cell population to overcome a starvation-induced cell cycle arrest and to proliferate. A release from such a non-lethal growth limitation is accomplished by mutations generated without DNA replication. Originally adaptive mutations were described in Escherichia coli, but more recently also in a simple eukaryote, the budding yeast Saccharomyces cerevisiae. We are studying the adaptive reversion of a frameshift allele which occurs when an auxotrophic yeast strain is starved for the amino acid essential for its proliferation. In this communication, we report on the DNA sequences from the locus concerned. Comparison between sequences from revertant clones which arose several days after growth arrest by starvation and those from revertants produced during proliferation shows significantly different mutation spectra: for replication-dependent revertants nucleotide gains and losses in a variety of sequence contexts are reasonably balanced, whereas for the replication-independent, i.e. adaptive, revertants mainly simple deletions in mononucleotide repeats were observed. These mutations resemble those known to originate from DNA polymerase slippage errors which were miscorrected or had escaped correction by the mismatch repair machinery. Our data present strong evidence for differences in the mechanistic origins of adaptive versus DNA replication-dependent mutations in a eukaryote. Most probably, mutations in non-replicating cells contribute to evolution, and if conserved in mammals, to human carcinogenesis.
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PMID:Adaptive reversions of a frameshift mutation in arrested Saccharomyces cerevisiae cells by simple deletions in mononucleotide repeats. 1116 29

CHO-K1 cells were synchronized at the G(1)/S border by mitotic shake-off and aphidicolin incubation. Pulse-labeling with tritium was done at 30 min, 2 or 5 h into the S-phase, with chase incubations for different times in non-radioactive medium. The cells were subjected to neutral microelectrophoresis to extend the DNA into "comets," after which the label was visualized through autoradiography. At zero chase time, all label was positioned in the head. The displacement of label into the tails increased with time, reaching a maximum at about 5 h after the pulse. A lag phase of 2-3 h was observed for the early-labeled cells before the displacement started. Also, more label was released after overnight serum starvation, but this was reversed through a 3-h incubation at normal growth conditions. It was found that late-replicating chromatin is organized in larger domains than early-replicating chromatin, and DNA polymerase seems to be an important organizer. Early-replicating chromatin has other important attachments to the nuclear matrix, dependent on metabolic activity.
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PMID:Matrix association of early- and late-replicating chromatin studied by single-cell electrophoresis. 1206 73

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