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)

The induction of antibiotic-resistant mutations in yeast mitochondrial DNA by manganese is decreased when the manganese-containing medium is additionally supplemented with magnesium. At equimolar concentrations of manganese and magnesium the former is no longer mutagenic. Amino acid starvation, cycloheximide, chloramphenicol and erythromycin have very little, if any, effect on the mutagenicity of manganese. Hydroxyurea itself seems to be slightly mutagenicity of manganese. Our results show that manganese acts as an error-producing factor in DNA replication probably through a direct interaction with mitDNA polymerase(s).
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PMID:Manganese mutagenesis in yeast. IV. The effects of magnesium, protein synthesis inhibitors and hydroxyurea on AntR induction in mitochondrial DNA. 110 4

We have previously demonstrated in transient expression assay systems that a human multidrug resistance 1 (MDR1) promoter can be directly activated by cytotoxic anticancer agents. In this study, we examined whether the MDR1 promoter could be regulated in response to growth arrest induced by serum starvation. We have established human and rodent cell lines which stably expressed the chloramphenicol acetyltransferase (CAT) gene driven by various lengths of the MDR1, the viral thymidine kinase (TK) and the simian virus 40 (SV40) promoters. Serum starvation caused enhanced expression of CAT gene with MDR1 promoter, but not with two viral gene promoters in human cancer KB cells. Hydroxyurea activated the MDR1 promoter, but not TK and SV40 promoters. By contrast, the DNA topoisomerase II inhibitor, etoposide, equally activated the MDR1, TK and SV 40 promoters. Increased CAT gene expression by serum starvation was also specifically observed in stable transfectants of human adrenal SW-13 cell lines, but not in stable transfectants of mouse fibroblast NIH3T3 and adrenal Y-1 cell lines when the human MDR1 promoter-CAT was introduced. Etoposide, however, effectively induced CAT activity in both human and rodent cells. Assays with deletion constructs of the MDR1 promoter showed that serum starvation activated the MDR1 promoter carrying -258 approximately +121 base sequence of the promoter, but not -198 approximately +121 of the promoter. These results suggest that the expression of the MDR1 gene induced by serum starvation is regulated at the transcriptional level in a promoter sequence-specific manner in human cells.
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PMID:The human multidrug resistance 1 promoter has an element that responds to serum starvation. 155 May 97

Ribonucleotide reductase in mammalian cells is composed of two nonidentical subunits, proteins R1 and R2, each inactive alone. The R1 protein is present in excess in proliferating cells, and its levels are constant during the cell cycle. Expression of the R2 protein, which is limiting for enzyme activity, is strictly S-phase-correlated. In this paper, we have used antisense RNA probes in a solution hybridization assay to measure the levels of R1 and R2 mRNA during the cell cycle in centrifugally elutriated cells and in cells synchronized by isoleucine or serum starvation. The levels of both transcripts were very low or undetectable in G0/G1-phase cells, showed a pronounced increase as cells progressed into S phase, and then declined when cells progressed into G2 + M phase. The R1 and R2 transcripts increased in parallel, starting slightly before the rise in S-phase cells, and reached the same levels. The relative lack of cell cycle dependent variation in R1 protein levels, obtained previously, may therefore simply be a consequence of the long half-life of the R1 protein. Hydroxyurea-resistant, R2-overproducing mouse TA3 cells showed the same regulation of the R1 and R2 transcripts as the parental cells, but with R2 mRNA at a 40-fold higher level.
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PMID:S-phase-specific expression of mammalian ribonucleotide reductase R1 and R2 subunit mRNAs. 169 35

Dexamethasone (DEX) inhibits growth and induces differentiation in rat pancreatic acinar AR42J cells. We wished to determine whether growth and differentiation are mutually exclusive in AR42J cells and whether DEX effects on growth and differentiation are mutually dependent or independent. Inhibition of DNA synthesis, assessed by [3H]thymidine incorporation, was detectable after 6 h, half-maximal after 12 h, and complete after 18-h DEX treatment, at which time incorporation was reduced to 9.0% of control. The half-maximal effective dose for inhibition of DNA synthesis was 0.5 nM, and maximal inhibition was achieved with 10 nM DEX. This dose-response was similar to that previously reported for DEX-induced parameters of differentiation. The rank order of potency for inhibition of DNA synthesis by various steroid hormones was DEX greater than corticosterone greater than aldosterone greater than progesterone. Hydroxyurea or serum starvation inhibited growth to the same extent as DEX but did not induce differentiation. Moreover, hydroxyurea or serum starvation did not block the ability of DEX to induce differentiation. Addition of either EGF or insulin significantly reversed the growth inhibitory effects of submaximal (1 nM) DEX. In cultures released from growth inhibition, 1 nM DEX increased cellular amylase content 5.9- to 6.5-fold, similar to the amylase increase in growth-inhibited cultures. Therefore, growth inhibition and differentiation are independent delayed events regulated by DEX in AR42J cells.
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PMID:Growth and differentiation of pancreatic acinar cells: independent effects of glucocorticoids on AR42J cells. 171 23

The methylation of nucleic acids has been investigated during the cell cycle of an asparagine dependent strain of transformed fibroblasts (BHK 21 HS 5). The synchrony was carried out by a partial asparagine starvation of cells for 24 hours. The amino acid supply induced all cells to enter synchronously the G1 phase. Methylation and DNA synthesis were respectively measured by pulsed [methyl-14C] methionine and [methyl-3H] thymidine incorporation. DNA methylation followed a biphasic pattern with maximal methyl incorporations during both S phase and mitosis. A partial desynchronisation induced the S phase of the second cycle to proceed before all the cells have achieved their division. Hydroxyurea was used in order to inhibit the DNA synthesis of cells entering the second cell cycle, which might interfer with the mitosis of the first one. The inhibitor was added either at the first beginning of cell division or during all the G1 phase. In both conditions it suppressed 3H thymidine incorporation of the second cycle. However, mitosis took place and methylations occurred as in previous experiments. The DNA methylation of the mitotic phase in the first cell cycle could thus be dissociated from the classical post-synthetic DNA maturation and did not correspond to any DNA methylation appearing in the course of the second cell cycle.
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PMID:Nucleic acids methylation of synchronized BHK 21 HS 5 fibroblasts during the mitotic phase. 615 63

Ribonucleotide reductase, the central enzyme of DNA precursor biosynthesis, has been isolated and characterized from baker's yeast. The enzyme activity, measured in extracts from three different, exponentially growing yeast strains, is high enough to meet the substrate requirement of DNA replication, in contrast to very low activities found in most other organisms. In thymidylate-permeable yeast cells ribonucleotide reductase activity is stimulated under both starvation and excess of intracellular dTMP. On the other hand growth of yeast in presence of 20 mM hydroxyurea did not increase enzyme activity. Yeast ribonucleotide reductase is composed of two non-identical subunits, inactive separately, of which one binds to immobilized dATP. The relative molecular mass of the holoenzyme is about 250 000. The enzyme reduces all four natural ribonucleoside diphosphates with comparable efficacy. GDP reduction requires dTTP as effector, ADP reduction is stimulated by dGTP, whereas pyrimidine nucleotide reduction is stimulated by any deoxyribonucleotide and ATP. Enzyme activity is independent of exogenous metal ions and is insensitive towards chelating agents. Hydroxyurea inactivates yeast ribonucleotide reductase in a slow reaction; half-inhibition (I50) is reached only at 2-6 mM hydroxyurea concentration. Up to 50% reactivation occurs spontaneously after removal of the inhibitor. In accord with previous attempts by others, extensive purification of the yeast enzyme has failed owing to its extreme instability in solution; the half-life of about 11 h could not be influenced by any protective measure. Taken together, yeast ribonucleotide reductase combines features known from Escherichia coli and mammalian enzymes with differing, individual properties.
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PMID:Deoxyribonucleotide biosynthesis in yeast (Saccharomyces cerevisiae). A ribonucleotide reductase system of sufficient activity for DNA synthesis. 637 Jun 95

Deoxyribonucleoside triphosphate (dNTP) pool levels were examined in synchronized and unsynchronized log phase cultures and in quiescent cultures of human diploid foreskin fibroblasts. dNTP levels were in good agreement with those previously published for human HeLa and lymphoblastic leukemia cells. dCTP and dGTP levels showed only a modest lowering in quiescent as compared to log-phase cells, but dATP and dTTP levels were reduced dramatically in quiescent cultures. Cells synchronized by serum starvation and assayed at the peak DNA synthetic phase (18-21 hr post release) showed substantially higher pools of all four dNTPs. Hydroxyurea treatment reduced only purine dNTPs in both log phase and confluent cells while increasing dTTP and dCTP pools. The effects of deoxynucleosides on dNTP pools were also examined and are discussed in light of current models regarding regulation of purified ribonucleotide reductase formulated from in vitro studies.
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PMID:Deoxyribonucleoside triphosphate pools in human diploid fibroblasts and their modulation by hydroxyurea and deoxynucleosides. 673 68

A rapid procedure for measuring unscheduled DNA synthesis has been studied in detail. Human fibroblasts were brought into the non-dividing state by either growing to confluence or starvation for arginine. Residual semi-conservative synthesis was abolished by hydroxyurea. Hydroxyurea-resistant DNA synthesis which was induced by irradiation and chemical mutagens was presumed to represent repair synthesis and provided a very rapid semi-quantitative procedure for its measurement. Problems were encountered, however, when comparing the quantitative response of different cell strains. The variability between experiments was quite large, and we found that the level of repair synthesis depended not only on the mutagen and the genotype of the cell, but also on physiological factors. This led to some anomalous results. The system was able to detect with ease the large defects in UV-induced repair synthesis in fibroblasts from patients with xeroderma pigmentosum (XP) but it would probably not easily detect less than a 50% reduction in the level of repair synthesis. By extension of this procedure, in combination with cell fusion induced by polyethylene glycol, we have developed a method for carrying out genetic complementation of XP fibroblasts, which does not entail the use of either Sendai virus or of autoradiography. Results of complementation analysis of 4 XP cell strains are presented.
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PMID:A rapid procedure for measurement of DNA repair in human fibroblasts and for complementation analysis of xeroderma pigmentosum cells. 698 95

Synchronous yeast-phase cultures of Wangiella dermatitidis were induced by starvation, heat shock, and inhibition of deoxyribonucleic acid synthesis by hydroxyurea. Hydroxyurea-induced synchrony resulted in some distortion of the yeast-phase cell cycle. However, induction of synchrony by hydroxyurea is a rapid and simple technique which generates a marked degree of synchronous growth.
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PMID:Induction of synchronous growth in the yeast phase of Wangiella dermatitidis. 736 23

Inhibition of DNA replication with hydroxyurea during thymine starvation of Escherichia coli shows that active DNA synthesis is not required for thymineless death (TLD). Hydroxyurea experiments and thymine starvation of lexA3 and uvrA DNA repair mutants rule out unbalanced growth, the SOS response, and nucleotide excision repair as explanations for TLD.
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PMID:Role of DNA replication and repair in thymineless death in Escherichia coli. 1681 1

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