UMLS:C0038187 - FACTA Search

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

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

The unique leucine-, arginine-, valine-, and phenylalanine-specific transfer ribonucleic acids (tRNA's) produced in relaxed-control (rel-) Escherichia coli during leucine or arginine starvation are chromatographically similar to those produced by chloramphenicol treatment. The major unique rel- leucine-specific and phenylalanine-specific tRNA's are heterogeneous, accumulate with time of starvation, and can account for up to 70% of the respective amino acid acceptor activities. The changes which occur in the isoacceptor profiles for tRNALeu and tRNAPhe as a function of starvation time suggest that the unique species are undermodified precursors to the major isoacceptor species observed in nonstarved cells. Analyses of the isoacceptor patterns of tRNA from cells recovering from starvation suggest that the unique species of tRNALeu and tRNAPhe may not be normally occurring precursors. When leucine-starved cells were incubated in fresh, fully supplemented medium, the major unique tRNALeu and tRNAPhe appeared to be converted to normal species only slowly or not at all. The results are consistent with the view that some of the events in the post-transcriptional modification of tRNA may occur in an ordered sequence. An examination of the subcellular distribution of the unique leucine and phenylalanine tRNA's revealed that these species occur on the ribosome at about the same frequency as the major, normally occurring isoacceptor species. This result provides additional evidence of a precursor-product relationship for the unique and normal tRNA's and further indicates that there is no discrimination against the unique species by the ribosome.
...
PMID:Unbalanced growth and the production of unique transfer ribonucleic acids in relaxed-control Escherichia coli. 110 85

Culturing of Salmonella typhimurium or Escherichia coli cells in the presence of low concentrations (</=1 mug/ml) of chloramphenicol (CAP) permitted exponential growth, but at doubling times up to twice those of controls. When such cultures were subsequently starved for uracil or arginine, derepression of aspartate transcarbamylase (ATCase) or ornithine transcarbamylase, respectively, was enhanced three- to 10-fold as compared to cultures not exposed to CAP. Enhancement of beta-galactosidase synthesis by prior exposure to CAP was also observed in uracil-starved E. coli cultures. Stimulation of enzyme synthesis appeared to be a specific effect of CAP; low levels of erythromycin, puromycin, sparsomycin, tetracycline, and rifampin did not show such effects. Derepression of ATCase synthesis in exponentially growing cells in the presence of CAP did not result in stimulation of enzyme synthesis by CAP. A prior history of growth of a culture in the presence of CAP was shown to be necessary for enhancement of enzyme synthesis by CAP; furthermore, continued presence of CAP in the medium during starvation was not necessary for enhanced enzyme synthesis and inhibited it in some instances. Enhanced enzyme synthesis in starving, CAP-treated cultures could be blocked by rifampin, which suggested that CAP treatment allows prolonged or more extensive messenger ribonucleic acid synthesis.
...
PMID:Stimulation of derepressed enzyme synthesis in bacteria by growth on sublethal concentrations of chloramphenicol. 114 88

Experiments were conducted to determine whether the rate of entry of arginine into liver varies with changes in dietary protein or in the protein-catabolic state of the animal. It was first established by liver perfusion with [14C]ureidocitrulline that release of arginine by liver is sufficiently small that it can be ignored and that disappearance of arginine from a perfusion medium can be used to measure entry rate. Disappearance rates of arginine were then determined for rats that had been starved of fed either a stock control diet, a 15% casein diet, a 90% casein diet, or which had been injected with cortisol. There was no difference in arginine uptake between the control and 15% casein groups. The high protein group showed a threefold increase in rate of entry of arginine into liver as compared with the control group. Cortisol treatment and 48 hours of starvation also caused a threefold increase in arginine uptake. Cortisol treatment combined with high protein adaptation resulted in a sevenfold increase over controls. It was concluded that rate of entry of arginine into rat liver varies with nutritional and endocrine states.
...
PMID:Effects of protein content of diet and cortisol treatment on uptake of arginine by rat liver. 115 37

We investigated the degradation of radioisotopically labeled intracellular protein in starved, intact cells of Pseudomonas putida P2 (ATCC 25571) and the regulation of this process. Intracellular protein isotopically labeled with L-[4,5-3H]leucine during log-phase growth at 30 C is degraded at rates of 1 to 2%/h in log-phase cells and 7 to 9%/h in starved cells. Rifampin, chloramphenicol, and tosyllysine chloromethylketone lower the rate of protein degradation by starved cells. Addition to starved cells of a nutrient upon which the culture is induced for growth rapidly lowers the rate of protein degradation from 7 to 9%/h to less than 1.5%/h. A nutrient that is oxidized but that cannot immediately support growth also lowers the rate of starvation-induced protein degradation. Proteolytic activity of cell extracts requires a divalent metal ion and may be inhibited up to 60% by tosyllysine chloromethylketone or p-toluenesulfonyl fluoride. Rifampin and chloramphenicol have no effect. In contrast to intact cells, extracts of growing or starving cells degrade protein at equivalent rates. We also investigated the stabilities of the inducible transport system and of four inducible intracellular enzymes of L-arginine catabolism. These include: the membrane-associated, L-arginine-specific transport system; L-arginine oxidase (oxidase); alpha-ketoarginine decarboxylase (decarboxylase); gamma-guanidinobutyraldehyde dehydrogenase ( dehydrogenase); and gamma-guanidinobutyrate amidinohydrolase (hydrolase). In starved cells, the rates of loss of activities were: transport and dehydrogenase activities, stable; oxidase and decarboxylase activities, 20 to 30%/h; hydrolase activity, 5 to 8%/h. Chloramphenicol decreases the rate of loss of oxidase, decarboxylase, and hydrolase activity, whereas p-toluenesulfonyl fluoride lowers the rate of loss of decarboxylase but not of oxidase or hydrolase activity. Addition to starved cells of a nutrient for which they are already induced for growth (e.g., malate, a noninducer of arginine catabolic enzymes) decreases the rate of loss of oxidase and decarboxylase activity but not that of the hydrolase.
...
PMID:Physiological consequences of starvation in Pseudomonas putida: degradation of intracellular protein and loss of activity of the inducible enzymes of L-arginine catabolism. 119 37

The fission yeast Schizosaccharomyces pombe was found to accumulate large amounts of polyphosphate, particularly when grown on arginine as the nitrogen source. Upon transfer to a medium without phosphate, polyphosphate was degraded and served as an endogenous phosphate reserve. When phosphate was added again after a prolonged period of phosphate starvation, fission yeast cells synthesized more polyphosphate than they had contained before starvation, a phenomenon known as over-compensation. Strains carrying mutated structural genes for three different phosphatases, pho1, pho2 or pho3, degraded polyphosphate at the same rate as the wild-type strain during phosphate starvation and showed the same type of over-compensation when phosphate was added again.
...
PMID:Synthesis and degradation of polyphosphate in the fission yeast Schizosaccharomyces pombe: mutations in phosphatase genes do not affect polyphosphate metabolism. 131 42

We previously found a trypsin-like proteinase which momentarily appears immediately before DNA synthesis in the cell cycle of Escherichia coli synchronized by phosphate starvation and which is closely related to the initiation of DNA replication (Kato, M., Irisawa, T., Morimoto, Y. and Muramatu, M., unpublished results). The proteinase was named proteinase In. It was purified approximately 2880-fold with a recovery of 15%. The isolated enzyme appeared homogeneous by gel filtration and electrophoresis. Its molecular mass was estimated by analytical gel filtration and SDS/PAGE as approximately 66 kDa. The isoelectric point of proteinase In is 4.9 and its optimal pH is approximately 9. Although protein In hydrolyzes fluorogenic substrate for trypsin, its hydrolytic activity seems markedly affected by amino-acid sequence lying towards the N-terminal from the P1 (lysine, arginine) residue. The proteinase does not hydrolyze N2-benzoyl-D,L-arginine-4-nitronanilide and fluorogenic substrates for chymotrypsin and elastase. The proteinase activity is inhibited by leupeptin, antipain and 4-nitrophenyl 4-guanidinobenzoate, but the effects of tosyl-L-lysine chloromethane, diisopropylfluorophosphate, benzamidine and pentamidine isethionate on the proteinase activity are weak or not inhibitory. Its activity is strongly affected in the presence of NaCl and KCl, and at a concentration of 1.5 M, these increase the activity 14-fold and 13-fold, respectively, above that without salt. Proteinase In was strongly inhibited by various esters of trans-4-guanidinomethylcyclohexanecarboxylic acid, and their inhibitory effects were roughly correlated with those on growth of E. coli. Proteinase activity was found in the cytoplasmic fraction.
...
PMID:Purification and characterization of proteinase In, a trypsin-like proteinase, in Escherichia coli. 133 54

Gastric inhibitory peptide (GIP) is a 42 amino acid gastrointestinal peptide which inhibits gastric acid secretion and stimulates pancreatic insulin secretion in the presence of glucose. Here we report the sequence of the cDNA encoding the rat GIP precursor. PreproGIP was 144 amino acids in length and comprised the GIP peptide itself, N- and C-terminal flanking peptides of 22 and 59 amino acids respectively and a typical hydrophobic signal peptide. The sequence indicated that GIP is released from its precursor by cleavage at single arginine residues. The C-terminal flanking peptide may have an important function since it was well conserved and contained a region of 16 amino acids with only a single, conservative replacement. Rat GIP mRNA was found in the duodenum and jejunum. Levels of GIP mRNA in the duodenum were increased twofold after a period of 2 days of starvation. There was no detectable expression of the GIP gene in other parts of the gastrointestinal tract or in other endocrine tissues. However, in pancreatic mRNA preparations, a larger mRNA was detected after low stringency hybridization. This could represent a further member of this gene family.
...
PMID:Characterization of rat gastric inhibitory peptide cDNA. 147 14

Ornithine carbamoyltransferase (OCT) and arginase, but not arginine synthetase (AS), were detected in the body wall and gut tissues of the leech. The activities of these enzymes were not altered by starvation. The high activity of arginase in body wall is probably due to the association of the latter with botryoidal tissue. Hirudineans, which evolved from oligochaete ancestors, appear to have lost the citrulline-arginine segment of the urea cycle due to their ammonotelic mode of nitrogen excretion.
...
PMID:Presence of a partial urea cycle in the leech, Poecilobdella granulosa. 151 77

The response to injury and infection can be viewed as a mobilization of body protein, fat, and carbohydrate stores to ensure normal or above-normal circulating levels of substrate in the absence of dietary intake. The situation does not readily yield to nutritional manipulation, and inappropriate nutritional support can cause additional stress. Artificial nutrition is mainly a form of nutrient administration and not nutrient utilization. Modulation of neurohumoral and wound responses to trauma due to starvation and refeeding has not been delineated. The provision of adequate substrates alone does not necessarily guarantee their efficient use in metabolism. With a clear knowledge of the role of cellular mediators in the pathophysiology of disease, it may be possible to develop more rational therapeutic approaches during critical illness. Determination of appropriate and optimal substrate support through parenteral and enteral nutrition remains of great clinical importance. The clinical application of branched-chain amino acids, dispensable amino acids, acetylated amino acids, dipeptides or tripeptides, cysteine, glutamine, and arginine has been explored in recent years. The idea that lipids are deleterious in sepsis and organ failure should be revised and documented, and recent studies suggest that fish oils as a lipid source may also favorably affect immune responses. Under stressful conditions, total parenteral nutrition can require large amounts of energy at a time when there are marked disturbances in glucose utilization. In this area, the use of nonglucose carbohydrates or oligosaccharides can be appropriate, despite the lack of broad acceptance. Existing conventional substrates should be studied beyond mere provision of energy and metabolic pathway support.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Nutritional and metabolic support: converging concepts. 180 4

Pancreatic procolipase is activated by trypsin forming colipase, a cofactor for pancreatic lipase involved in intestinal fat digestion and a pentapeptide named enterostatin. Enterostatin with the sequence Val-Pro-Asp-Pro-Arg (VPDPR) was previously shown to decrease food intake in rats both after peripheral and central injection. In this work enterostatin has been shown to reduce specifically the consumption of a high-fat diet as opposed to a low-fat diet after central injection of Sprague-Dawley rats. After starvation for 18 hours the rats were given a free choice of a low-fat diet (5.2% fat by weight; 14.1% by energy) and a high-fat diet (17.8% fat by weight; 32.8% by energy) in separate containers. After injection of 200 ng of VPDPR into the lateral ventricle, the rats selectively decreased the intake of the high-fat diet by 45% (p less than 0.005), while the intake of the low-fat diet was unaffected compared to saline injection. VPDP after intracerebroventricular injection had totally lost the selective effect on the consumption of a high- fat and a low-fat diet. It is suggested that enterostatin formed during fat digestion from pancreatic procolipase may provide a feed-back signal for the intake of lipid.
...
PMID:Pancreatic procolipase propeptide, enterostatin, specifically inhibits fat intake. 189 1

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>