Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cellular content of 170kD and 180kD topoisomerase II was studied as a function of the proliferation state and cell cycle position in NIH-3T3 cells. When the cells were synchronized by serum starvation and then stimulated to enter the cell cycle by addition of fresh growth medium, the amount of 170kD topoisomerase II present was undetectable until the cells reached late S phase, peaked in G2-M phase cells, and decreased as the cells completed mitosis. The amount of 180kD topoisomerase II was constant once the cells entered the cell cycle. When exponentially growing cells were induced to enter G0 by serum starvation, the amount of 170kD topoisomerase II decreased in parallel with the loss of cells from the S and G2-M phases of the cell cycle and was undetectable once all of the cells reached G0. In contrast, the 180kD enzyme was still present after all of the cells had entered G0. The tightness of association of the two enzymes with chromatin was measured by determining the concentration of salt required to extract them from isolated nuclei. The 180kD enzyme required a higher concentration of NaCl for extraction than did the 170kD enzyme. The different patterns of expression of the two forms of topoisomerase II suggest that they perform different functions in cells.
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PMID:Proliferation- and cell cycle-dependent differences in expression of the 170 kilodalton and 180 kilodalton forms of topoisomerase II in NIH-3T3 cells. 165 Nov 2

In yeast, nutrient starvation leads to entry into stationary phase. Mutants that do not respond properly to starvation conditions have been isolated in Saccharomyces cerevisiae. Among them the rvs161 mutant (RVS for Reduced Viability upon Starvation) is sensitive to carbon, nitrogen and sulphur starvation. When these nutrients are depleted in the medium, mutant cells show cellular viability loss with morphological changes. The mutation rvs161-1 is very pleiotropic, and besides the defects in stationary phase entry, the mutant strain presents other alterations: sensitivity to high salt concentrations, hypersensitivity to amino acid analogs, no growth on lactate or acetate medium. The addition of salts or amino acid analogs leads to the same morphological defects observed in starved cells, suggesting that the gene could be implicated mainly in the control of cellular viability. The gene RVS161 was cloned; it codes for a 30,252 daltons protein. No homology was detected with the proteins contained in the databases. Moreover, Southern analysis revealed the presence of other sequences homologous to the RVS161 gene in the yeast genome.
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PMID:Yeast mutant affected for viability upon nutrient starvation: characterization and cloning of the RVS161 gene. 177 63

The cations Ca2+ and K+ and the anions Cl-, HCO3-, and PO4- were studied for their contribution to metacyclic trypomastigote formation of Trypanosoma cruzi in starvation media consisting of phosphate-buffered saline (PBS) + 10 mM proline + 10 mM sodium acetate as well as one of the following salts: 0.035% NaHCO3 (PBSNPA), 0.035% K2CO3 (PBSKPA) or 0.035% K2HPO4 (PBSPPA). Isolates CL and DM28c were activated to transform with 5% CO2 and the percent metacyclogenesis determined after incubation for 96 h in PBS starvation media. Maximal metacyclogenesis was found with CaCl2 and KCl. In the presence of K+, the percent transformation was highest with the phosphate salt, followed by the carbonate and the chloride salts. Cells incubated in PBSNPA and the cationic ionophores A23187 (5 x 10(-6) M), lasalocid (5 x 10(-6) M), and valinomycin (10(-8) M) do not survive; addition of 2 mM CaCl2 or 17 mM KCl to DM28c cells, reversed the lethal action of the ionophores permitting differentiation into metacyclic forms. The addition of CaCl2 to CL cells incubated in ionophores abrogated the lethal effect of the ionophores but transformation was significantly different than in control preparations. Adding KCl to ionophore incubated cells resulted in normal levels of transformation except in the case of valinomycin. DM28c and CL cells incubated in PBSKPA show significantly greater metacyclogenesis in the presence of 5 mM EGTA. These results indicate that exogenous concentrations of several cations and anions significantly influence T. cruzi metacyclogenesis and that the degree of response by the parasite to free ion levels may be strain dependent.
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PMID:Action of exogenous potassium and calcium ions on in vitro metacyclogenesis in Trypanosoma cruzi. 181 6

A degenerative oligodeoxyribonucleotide probe deduced from the first 19 amino acids of the mature alkaline phosphatase IV (APase IV) protein was used to clone a DNA fragment internal to the coding region of the phoAIV gene of Bacillus subtilis. An insertional mutation was constructed in the phoAIV locus using the integrative plasmid, pJM103, containing the cloned DNA fragment. The strain with the interrupted phoAIV gene showed no detectable APase IV product on Western-blot analysis. The impact of the phoAIV interruption on total APase production in B. subtilis 168 was analyzed under both phosphate starvation and sporulation culturing conditions. The mutation in phoAIV reduced total APase-specific activity by 75% in phosphate-starved cells, and resulted in the elimination of a salt-extractable membrane APase, as well as the secreted APase IV. Analysis of this membrane APase indicated that it is a phoAIV gene product which is localized within the membrane fraction of the lysed cell and not secreted. There was no effect on the production of sporulation APase. The phoAIV::pJM103 insertion was mapped and determined to be located at approx. 73 degrees on the B. subtilis 360 degrees chromosome.
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PMID:The Bacillus subtilis phoAIV gene: effects of in vitro inactivation on total alkaline phosphatase production. 212 17

Ascite tumor cells EL-4 were incubated in conditions of energy starvation (Hanks salt solution with rothenone and without glucose) at 37 degrees C for 3 hours. Under these conditions, some structural cell damages appeared within the first hours: enlarging and flattening of the cells, blebbing, vacuolization of the cytoplasm, nuclear chromatin condensation. Later on, a share of cells with obvious damage decreased, whereas that of the cells stained with trypan blue (dead cells) much increased (up to 90% after a 3 hour incubation). The cellular ATP decreased abruptly (up to 10% of the control) during the first 10 minutes of starvation. Free Ca2+ concentration increased within 1 hour of incubation more than two-fold. The conditions promoting Ca2+ influx (ionophore A23187 + Ca2+ in medium) accelerated the damage and cell death. However, the increase in free Ca2+ concentration did not trigger any damage in the energy-starved cells, since in the Ca2(+)-depleted medium (no increase in free Ca2(+)-concentration) the development of damages was not prevented. The damage initiation was irreversible: the addition of glucose to cell suspensions after 0.5-1 hour of their incubation in energy-starved condition did not prevent the development of damage, while ATP content in these cells was much increased.
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PMID:[The relationship of damage to and death of ascitic tumor cells during starvation to the ATP and free calcium content in the cells]. 226 Feb 24

Phosphate starvation induced oligomeric proteins from the outer membranes of Pseudomonas fluorescens, Pseudomonas putida, Pseudomonas aureofaciens, and Pseudomonas chlororaphis were purified to homogeneity. The incorporation of the purified proteins into planar lipid bilayer membranes resulted in stepwise increases in membrane conductance. Single channel conductance experiments demonstrated that these proteins were all capable of forming small channels, similar to the Pseudomonas aeruginosa phospsate porin protein P, with average single channel conductances in 1 M KCl of between 233 and 252 pS. Single channel conductance measurements made in salts of varying cation or anion size indicated that the channels were uniformly anion selective. The measurement of single channel conductance as a function of KCl concentration revealed that all channels saturated at higher salt concentrations, consistent with the presence of an anion-binding site in the channel. Apparent Kd values for Cl- binding were calculated and shown to vary only twofold (180-297 mM) among all channels, including protein P channels. Phosphate competitively inhibited chloride conductance through these channels with apparent I50 values of between 0.59 and 2.5 mM phosphate at 40 mM Cl- and between 9.7 and 27 mM phosphate at 1 m Cl-. These data were consistent with the presence of a phosphate-binding site in the channels of these phosphate-regulated proteins. Furthermore, they indicated that these channels exhibit at least a 20- to 80-fold higher affinity for phosphate than for chloride.
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PMID:Phosphate-selective porins from the outer membranes of fluorescent Pseudomonas sp. 243 33

The work is concerned with studying the breakdown of proteins and RNA when a polyauxotrophic Escherichia coli strain is incubated in a salt solution without amino acids, phosphorus, nitrogen and glucose at 43 degrees C as well as the ability of starving bacterial cells to recommence protein and RNA synthesis (also in the course of phage T4 infection) and to reproduce bacteriophages T4, lambda and MS2. Within the first two hours of the incubation, 12% of proteins and 40% of RNA break down to acid-soluble fragments. Then protein degradation stops while RNA decomposition goes on, but at a lower rate. Within 4-6 h of starvation, the rate of protein and RNA synthesis drops down 4-5 times and the survival rate equals 40-60% when the cells are transferred onto a complete medium. The quantitative characteristics of phages T4, lambda and MS2 reproduction fall down in prestarved cells. The authors speculate that E. coli cells die off in the course of starvation not because some unique structure is destroyed, but owing to the fact that the activity of enzymes and ribosomes gradually declines. As a result, the synthetic activity of the cell drops down abruptly and irreversibly because the enzymes are inactivated and RNA breaks down, which eventually causes cell death.
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PMID:[Decreased synthetic activity as a possible cause of the death of Escherichia coli bacteria during amino acid starvation]. 244 Dec 35

Tetrahymena thermophila cells grown in a synthetic nutrient medium for 9 h removed 97% of the free L-arginine but less than 50% of any of the other essential amino acids. The major portion of the arginine was degraded rapidly (76-92%) whereas 5-15% was conserved as intact and only 2.5-10% were incorporated into protein. However, if bovine serum albumin (BSA) was present in the medium as a macromolecular arginine source the incorporation of free arginine into protein was reduced to less than 1% but the degraded fraction was increased. Apparently, the uptake mode of arginine determines its fate: arginine taken up by phagocytosis is bound for protein biosynthesis, arginine taken up by membrane receptors is chanelled to degradation. Media without arginine did not support growth of Tetrahymena. Citrulline and ornithine, the precursors of arginine biosynthesis in yeast and vertebrates, were not able to substitute for arginine. Pronounced morphological changes, e.g. greatly reduced ribosome content, were observed in Tetrahymena cells after 24 h of arginine starvation in otherwise complete medium, but not in cells starved in water, salt solution, or buffer. Thus, arginine is an essential nutrient component for Tetrahymena and the rapid degradation of this compound involving the enzymes arginine deiminase (ADI) and citrulline hydrolase (CH) might be of regulatory importance for the unicellular, as it is the case with acetylcholine and catecholamines in mammalian organisms. Since the product of these enzymes, L-ornithine, is the substrate for the regulatory key enzyme of polyamine biosynthesis, ornithine decarboxylase (ODC), the effects of the presence of absence of arginine on the activities of each particular enzyme of the pathway were studied, including ODC and the enzyme ornithine-oxo-acid aminotransferase (O delta T), which is a competitor of ODC for the common substrate. The arginine-degradative pathway was stimulated by extracellular free but not by peptide-bound arginine and was modulated by extracellular protein which induced phagocytosis; O delta T was stimulated with a time lag. The stimulation of ODC was in a reciprocal relation to the arginine concentration and enhanced by phagocytosis and previous arginine starvation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Stimulation of growth and polyamine biosynthesis of the ciliated protozoan Tetrahymena thermophila. Regulation by L-arginine. 261 Sep 29

The critical electrolyte concentration (CEC) of chromatin, considered to be the salt concentration at which the phenomenon of metachromasy is completely abolished, when using toluidine blue as the cationic dye and Mg2+ ions as inorganic cations, was determined for the euchromatin and chromocentral heterochromatin of cells from starved animals. The objective was to determine variations in CEC induced by the starvation stress, which could be related to structural alterations and/or to the composition of these chromatin types. The cells investigated were from Triatoma infestans Malpighian tubules and mouse liver. It was found that the CEC values were affected both by fasting and by refeeding, the effect varying according to chromatin type and the cell system under consideration.
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PMID:Critical electrolyte concentration of heterochromatin and euchromatin in cells of starved animals. 269 27

A 5-year-old boy is described who presented with episodes of hypoglycaemia triggered by mild infections or fever. Subnormal glucocorticoid production was confirmed by demonstrating low urinary excretion of free cortisol, low plasma cortisol concentrations that did not rise after glucagon and ACTH stimulation, and by elevated plasma ACTH levels. The selective nature of the abnormality was confirmed by demonstrating normal plasma electrolyte concentrations and blood pressure on a salt-restricted diet. Plasma renin activity and plasma aldosterone levels were also normal and responded appropriately to salt restriction and to frusemide-induced diuresis. Starvation-induced hypoglycaemia was associated with raised levels of blood ketone bodies and low blood alanine concentrations. Catecholamine secretion during hypoglycaemia was reduced. Glucocorticoid replacement therapy was effective in restoring normal glucose homeostasis.
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PMID:Isolated glucocorticoid deficiency: metabolic and endocrine studies in a 5-year-old boy. 298 94


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