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)

Candida albicans strain B 311-10 with and without starvation was cultivated in the minimal synthetic medium of Shepherd et al., modified without biotin, amino acids, low glucose concentration and with decreasing amounts of (NH4)2SO4, to determine the optimal growth requirement for this strain. All the experiments were carried out under sterile conditions at 25 degrees C in a thermostat with initial O.D.s (675 nm) of 0.500 and 0.100. Cell growth was generally monitored everyday for six days with a spectrophotometer by determining the absorbance of the cultures at 675 nm. All the experiments were repeated three times and a statistical analysis of the data with a probability of 99% and 1% of error was performed to confirm the validity of the results. Best growth was obtained with starved cells at an initial O.D. of 0.100 and with a 0.1 g/L concentration of (NH4)2SO4. At this concentration, the growth of C. albicans B 311-10 was best between the first and the fourth day with the maximum at the third day. With (NH4)2SO4 concentrations of 0.05 and 0.5 g/L, cell growth was the same.
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PMID:Optimal concentration of ammonium ion in a minimal synthetic medium for the growth of Candida albicans. 206 60

The glycoprotein gp115 (Mr = 115,000, pI 4.8-5) is localized in the plasma membrane of Saccharomyces cerevisiae cells and maximally expressed during G1 phase. To gain insight on the mechanism regulating its synthesis, we have examined various conditions of cell proliferation arrest. We used pulse-labeling experiments with [35S]methionine and two-dimensional gel electrophoresis analysis, which allow the detection of the well characterized 100-kDa precursor of gp115 (p100). In the cAMP-requiring mutant cyr1, p100 synthesis is active during exponential growth, shut off by cAMP removal, and induced when growth is restored by cAMP readdition. The inhibition of p100 synthesis also occurs in TS1 mutant cells (ras1ras2-ts1) shifted from 24 to 37 degrees C. During nitrogen starvation of rca1 cells, a mutant permeable to cAMP, p100 synthesis is also inhibited. cAMP complements the effect of ammonium deprivation, promoting p100 synthesis, even when added to cells which have already entered G0. Experiments with the bcy1 and cyr1bcy1 mutants have indicated the involvement of the cAMP-dependent protein kinases in the control of p100 synthesis. Moreover, the synthesis of p100 was unaffected in A364A cells, terminally arrested at START B by alpha-factor. These results indicate that the switch operating on p100 synthesis is localized in early G1 (START A) and is one of the multiple events controlled by the cAMP pathway.
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PMID:cAMP promotes the synthesis in early G1 of gp115, a yeast glycoprotein containing glycosyl-phosphatidylinositol. 216 14

The synthesis and release of the tumor marker carcinoembryonic antigen (CEA) from the colon cancer cell line LS180 has previously been reported to be enhanced during the later stages of in vitro culture after growth has stopped. It has been suggested that CEA expression was inversely related to the growth rate for these cells (Kahan, B.D.; Rutzky, L.P.; Legrue, S.J.; Tom, B.H. Methods Cancer Res. 18:197-275; 1979 and Shi, Z.R.; Tsao, D.; Kim, Y.S. Cancer Res. 43:4045-4049; 1983). Our studies indicate, however, that while certain environmental perturbations that halt growth (e.g., glucose starvation and elevated temperatures) do indeed stimulate CEA expression and release; other growth-arresting conditions, such as oxygen starvation, have no effect. Replacement of spent or conditioned medium with fresh medium during the later culture stages resulted in a 10-fold decrease in CEA release, indicating that either depleted nutrients or accumulating cellular products (such as lactate or ammonium) trigger enhanced CEA production.
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PMID:The effects of adverse growth conditions on the shedding of carcinoembryonic antigen from cultured LS180 colon cancer cells. 237 72

We have analyzed the effects of the cAMP relay inhibitor, caffeine, and the receptor antagonist, adenosine, on the regulation of the cell-surface cAMP receptor in suspension-starved Dictyostelium discoideum cells by measuring ammonium sulfate-stabilized binding of [3-H]cAMP to intact cells. When cells were starved in fast (230 r.p.m.) shaken suspension in 10 mM Na+/5 mM K+ phosphate buffer, pH 6.5, plus 1 mM CaCl2 and 2.5 mM MgCl2, and assayed for specific cAMP binding, receptor accumulation peaked at approximately 6 hours, reaching a maximum of 1.5 pmol cAMP bound/10(7) cells (saturation binding). Neither caffeine nor adenosine inhibited the accumulation of cAMP receptors. Similar results were obtained in caffeine-treated, slow shaken (90 r.p.m.) suspension cultures. These results suggest that starvation alone is sufficient stimulus to induce the cAMP receptor. We have also tested the effects of different buffer ionic compositions on the accumulation of cAMP receptors. Elevation of the monovalent ion concentration to 30-40 mM was found to significantly inhibit the induction of cAMP receptors.
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PMID:The effect of caffeine, adenosine, and buffer ionic composition on the induction of cell-surface cAMP binding during starvation of Dictyostelium discoideum. 285 21

The state of adenylylation, n, of glutamine synthetase (GS) in Pseudomonas fluorescens has been determined as a function of growth conditions. Compared to the behavior of Escherichia coli, atypical responses to either carbon or nitrogen starvation were observed when P. fluorescens was grown with either succinate, malate, or fumarate as the sole source of carbon and energy. Under conditions of carbon starvation (high NH4+, low dicarboxylic acid substrate), the value of n falls rapidly from 10 to 1.0 during prolonged incubation in the stationary phase, whereas the value of n is unexpectedly high (ca. 10) in extracts of nitrogen-starved cells. These abnormal responses are attributable to particular permeability properties of P. fluorescens cells compared to E. coli. The unusual changes in nitrogen-starved cells are related to the release of alpha-ketoglutarate by such cells during incubation or washing procedures. These changes can be prevented by the addition of cetyltrimethylammonium bromide (CTAB) to the cultures 5 min prior to harvesting the cells, or by freezing the cell pellets just after centrifugation and sonication within 3 min of suspension in buffer, or by suspending freshly harvested cells in buffer containing alpha-ketoglutarate and orthophosphate (i.e., effectors that favor deadenylylation of glutamine synthetase). The abnormal changes which occur during carbon starvation in the presence of excess NH4+ can be prevented by addition of ATP and glutamine to the buffer in which the freshly harvested cells are suspended prior to sonication. The results suggest that during the stationary phase of growth on succinate, fumarate, or malate (but not on glucose), the cellular membrane becomes permeable to small molecules that regulate the adenylylation cascade, and indeed, it was observed that such whole cells expressed, without any chemical or physical treatment, more than 50% of the glutamine synthetase activity they contained. Such cells may be useful in studies to examine the effects of multiple metabolites on the regulation of glutamine synthetase adenylylation in situ.
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PMID:Adenylylation state of glutamine synthetase and permeability properties of Pseudomonas fluorescens. 287 12

The effects of different culture conditions on nitrate reductase activity and nitrate reductase protein from Monoraphidium braunii have been studied, using two different immunological techniques, rocket immunoelectrophoresis and an enzyme-linked immunosorbent assay, to determine nitrate reductase protein. The nitrogen sources ammonium and glutamine repressed nitrate reductase synthesis, while nitrite, alanine, and glutamate acted as derepressors. There was a four- to eightfold increase of nitrate reductase activity and a twofold increase of nitrate reductase protein under conditions of nitrogen starvation versus growth on nitrate. Nitrate reductase synthesis was repressed in darkness. However, when Monoraphidium was grown under heterotrophic conditions with glucose as the carbon and energy source, the synthesis of nitrate reductase was maintained. With ammonium or darkness, changes in nitrate reductase activity correlated fairly well with changes in nitrate reductase protein, indicating that in both cases loss of activity was due to repression and not to inactivation of the enzyme. Experiments using methionine sulfoximine, to inhibit ammonium assimilation, showed that ammonium per se and not a product of its metabolism was the corepressor of the enzyme. The appearance of nitrate reductase activity after transferring the cells to induction media was prevented by cycloheximide and by 6-methylpurine, although in this latter case the effect was observed only in cells preincubated with the inhibitor for 1 h before the induction period.
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PMID:Immunological approach to the regulation of nitrate reductase in Monoraphidium braunii. 291 54

Following a short (3 h) period of carbon starvation, exponential phase yeast cells of Candida albicans rapidly (T50 45 min) formed germ tubes in a glucose/ammonium ion solution. The presence of both a sugar (glucose, sucrose or galactose) and a nitrogen source (ammonium ion or an amino acid metabolized via glutamate) was critical for morphogenesis.
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PMID:Nutritional factors determine germ tube formation in Candida albicans. 304 55

To establish a balance between the ATP produced in catabolism and the ATP consumed in net biosynthesis of cellular components the energy metabolism of Saccharomyces cerevisiae utilizing glucose in the absence of a nitrogen source (resting cells) was studied. The following results were obtained. (i) Cell number and biomass increased 2- and 2.5-fold, respectively, during the first 8 h of ammonium starvation. After this period, both values remained constant. (ii) The rate of sugar consumption and ATP production decreased with the duration of starvation to about 20% of the original in 24 h. (iii) About 60% of the sugar consumed was fermented to ethanol and about 10% assimilated as cellular material. Of the assimilated sugar, as much as 80% was accumulated as carbohydrate. (iv) Only 15% of the total ATP produced in catabolism seems to be consumed in net biosynthesis and maintenance of intracellular pH. The fate of the remaining 85% is unknown.
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PMID:Balance of production and consumption of ATP in ammonium-starved Saccharomyces cerevisiae. 307 87

Derepression of nitrogenase gene expression was studied at the mRNA and enzyme activity levels in anaerobic cultures of Anabaena variabilis 29413. Cells, previously grown with ammonium chloride, were incubated in the absence of fixed nitrogen compounds under an Ar atmosphere with dichlorophenyldimethyl-urea present to inhibit oxygen evolution. The appearance of nitrogenase mRNA (measured by dot blot hybridization analysis) and nitrogenase activity (measured as acetylene-reducing activity) was followed, and the cells were also observed by phase-contrast microscopy. Nitrogenase mRNA could be detected after 1.5 to 2.0 h of nitrogen starvation; enzyme activity appeared about 1 h later. Although enzyme activity increased for many hours, mRNA levels reached a steady state rapidly. Neither heterocysts nor proheterocysts formed under these conditions; however, the cells were observed to shrink and become chlorotic. When anaerobic, derepressed cultures were exposed to oxygen, nitrogenase mRNA levels decreased very rapidly.
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PMID:Regulation of nitrogenase gene expression in anaerobic cultures of Anabaena variabilis. 312 56

A histidine auxotrophic (hisA) mutant of Klebsiella pneumoniae is phenotypically Nif- when grown with 20 micrograms of histidine ml-1 but Nif+ when supplied with histidine at 100 micrograms ml-1. Reversion to Nif+ at 20 micrograms of histidine ml-1 occurs phenotypically by the addition of 2-thiazolyl-DL-alanine or genetically by mutation in hisG; 2-thiazolyl-DL-alanine inhibits and hisG encodes phosphoribosyl phosphotransferase, the first enzyme of the histidine biosynthetic pathway which consumes ATP. Physiological studies of the hisA mutant JS85 showed that after removal of NH4+ from a culture of the mutant grown with 20 micrograms of histidine ml-1, synthesis of nitrogenase polypeptides occurred at a rate similar to that in the wild type for about 3 h and acetylene reduction activity reached about 10% of the fully derepressed wild-type level. Shortly thereafter the concentration of intracellular adenylates decreased; in particular, ATP fell to about 10% of normal levels. Also, nitrogenase proteins (nifHDK products) and the nifJ gene product stopped being synthesized. These effects were not due to impairment of growth or protein synthesis by histidine starvation. Inhibition of phosphoribosyl phosphotransferase with 2-thiazolyl-DL-alanine restored nitrogenase activity and synthesis, indicating that the effect of the hisA mutation on nif expression was probably a consequence of lowered energy resources that occurred during anaerobic N starvation. The loss of ATP was not associated with nitrogenase synthesis or activity, since hisA nifA and hisA nifH double mutants underwent a loss of ATP in derepressing conditions. Transcription from the nifL, nifN, and nifH promoters was examined in hisA strains with Mu d(Ap lac) fusions in these nif genes. Transcription was not significantly influenced under conditions where adenylates were decreased in concentration. Also nif mRNA apparently accumulated in cultures unable to synthesize nitrogenase, suggesting that translational control of nif gene product synthesis occurs under unfavorable energetic conditions.
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PMID:Regulation of nitrogenase synthesis in histidine auxotrophs of Klebsiella pneumoniae with altered levels of adenylate nucleotides. 327 13

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