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)

Prednisolone (2 mg/kg) was injected daily for 14 days. Collagen and protein biosynthesis were measured in isolated molar and incisor pulps by the incorporation of [14C]-proline into protein and collagen in vitro. Collagen solubility, free proline content, prolyl hydroxylase activity, collagenolytic activity and DNA and RNA contents were also assayed. Rabbits injected with saline or starved served as controls. Collagen synthesis was inhibited selectively in both prednisolone and starvation groups. No other aspect of collagen and protein metabolism was affected by either prednisolone treatment or starvation. Thus glucocorticoid administration reduces collagen formation in the pulp, resembling the anti-anabolic effect of starvation. Glucocorticoid treatment at high daily dosages, therefore, may disturb normal development and metabolism of teeth.
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PMID:Selective inhibition of collagen biosynthesis in the dental pulps of glucocorticoid-treated rabbits. 619 Apr 70

Nitrogen starvation has been shown to increase the cytosolic arginine concentration and to accelerate protein turnover in mycelia of Neurospora crassa. The cytosolic arginine is derived from a metabolically inactive vacuolar pool. Redistribution of arginine between cytosolic and vacuolar compartments is the result of mobilization of this metabolite in response to nitrogen starvation. Mobilization of arginine (and purines) also occurred in response to glutamine limitation, but arginine accumulated upon proline starvation. These observations indicate that mobilization is a consequence of glutamine limitation rather than a general response to amino acid starvation (or limitation). Analysis of the amino acid pools in mycelia subjected to starvation or limitation suggests that glutamine (or a metabolite derived from glutamine) provides a signal which determines the metabolic fate of vacuolar arginine. The results are consistent with the hypothesis that vacuolar compartmentation provides a readily available store of nitrogen-rich compounds to be utilized during differentiation or under conditions of nutritional stress.
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PMID:Mobilization of vacuolar arginine in Neurospora crassa. Mechanism and role of glutamine. 623 20

A mutant strain of Salmonella typhimurium that lacks two proline-specific peptidases (peptidases P and Q) could not complete the degradation of proline peptides formed as intermediates in starvation-induced protein breakdown. The wild-type strain produced free proline as the product of degradation of proline-labeled proteins. The pepP pepQ mutant, however, produced a mixture of small proline peptides. In the absence of peptidase Q only, peptidase P could complete the degradation of most of the proline peptide intermediates formed. In the absence of peptidase P only, about 50% of the proline-labeled, acid-soluble products were proline peptides. These results are consistent with in vitro specificity data indicating that peptidase Q hydrolyzes X-Pro dipeptides only, whereas peptidase P attacks both X-Pro dipeptides and longer peptides with X-Pro at their N-termini. A mutant strain lacking four broad-specificity peptidases (peptidases N, A, B, and D), but containing peptidases P and Q, also produced proline peptides as products of protein breakdown. This observation suggests that broad-specificity peptidases are required to generate the X-Pro substrates of peptidases P and Q. A strain lacking six peptidases (N, A, B, D, P, and Q) was constructed and produced less free proline from protein breakdown than either the pepP pepQ strain or the pepN pepA pepB pepD strain. These observations suggest that the degradation of peptide intermediates involves the sequential removal of N-terminal amino acids and requires both broad-specificity aminopeptidases (peptidases N, A, and B) and the X-Pro-specific aminopeptidase, peptidase P.
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PMID:Degradation of proline peptides in peptidase-deficient strains of Salmonella typhimurium. 633 37

Mutations at the NPR1 genetic locus are known to inactivate (totally or partially) at least five distinct ammonia-sensitive permeases. Mutants with thermosensitive NPR1 gene product (nprts) have been used to discriminate between three possible roles of this protein, namely (a) a common constituent of a set of ammonia-sensitive permeases; (b) a common activator of these permeases; (c) a common positive factor necessary for their synthesis. Inactivation of the general amino-acid permease was observed upon transfer of nprts mutant cells to a non-permissive temperature. Under the same conditions, the general amino-acid permease of the wild-type cells remained active for several hours even when protein synthesis was inhibited by nitrogen starvation or by cycloheximide. Mutations at three unlinked loci, namely the PGR site (located in the GAP1 structural gene of the permease), and the unlinked MUT2 and MUT4 loci restore the general amino-acid permease activity in npr1 mutants. The results are interpreted as indicating that the NPR1 product is necessary for the reactivation of the general amino-acid permease which seems to be continuously inactivated by a regulatory process mediated by the MUT2 and the MUT4 gene products acting at the level of the PGR site of the general amino-acid permease molecule. The proline permease and the ureidosuccinic-acid permease seem to be subject to the same double regulation by inactivation-reactivation of the permeases and by repression of their synthesis. A tentative scheme of the regulation of the general amino-acid permease is presented.
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PMID:Study of the positive control of the general amino-acid permease and other ammonia-sensitive uptake systems by the product of the NPR1 gene in the yeast Saccharomyces cerevisiae. 634 84

The neutral amino acid transport systems of freshly isolated rat pancreatic islets have been studied by first examining the transport of L-alanine and the nonmetabolizable analogue 2-(methylamino)isobutyric acid (MeAIB). By comparing the uptake of MeAIB and L-alanine for their pH dependency profile, choline and Li+ substitution for Na+, tolerance to N-methylation, and competition with other amino acids, the existence in pancreatic islets of both A and ASC amino acid transport systems was established. The systems responsible for the inward transport of five natural amino acids was studied using competition analysis and Na+ dependency of uptake. These studies defined three neutral amino acid transport systems: A and ASC (Na+-dependent) and L (Na+-independent). L-Proline entered rat islet cells mainly by system A; L-leucine by the Na+-independent system L. The uptake of L-alanine, L-serine, and L-glutamine was shared by systems ASC and L, the participation of system A being negligible for these three amino acids. An especially broad substrate specificity for systems L and ASC is therefore suggested for the rat pancreatic islet cells. The regulation of amino acid transport was also investigated in two conditions differing as to glucose concentration and/or availability, i.e. islets from fasted rats and islets maintained in tissue culture at high or low glucose concentrations. Neither alanine nor MeAIB transport was altered by fasting of the islet-donor rats. On the other hand, pancreatic islets maintained for 2 days in tissue culture at high (16.7 mM) glucose transported MeAIB at twice the rate of islets maintained at low (2.8 mM) glucose. Amino acid starvation of pancreatic islets during 11 h of tissue culture resulted in a 2-fold increase in MeAIB transport.
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PMID:Neutral amino acid transport in isolated rat pancreatic islets. 635 18

We have developed a method for the isolation of transport mutants with increases in velocity of transport through the A and ASC systems and through a newly discovered P system utilizing the amino acid antagonism between A system amino acids and proline in CHO-K1 pro- cells. Mutants alar2 and alar3, isolated in a single-step procedure, resistant to 25 mM alanine in MEM-10 plus 0.05 mM proline are pro-, stable, cross resistant to alpha-(methylamino)isobutyric acid (MeAIB) and show an approximately twofold increase in the initial velocity of proline uptake. Ethyl methane sulfonate (EMS) increases the frequency of pro- alar clones in the population by at least 50 times the spontaneous frequency. The increased velocity of proline transport by alar2 and alar3 can be attributable to the 1.5 to 3 times increase in velocity of transport of proline through systems A, ASC, and P. The Vmax for proline transport through the A system has increased two times for alar2 while the Km and Vmax for alar3 has increased by 1.4 and 2.3 times that of CHO-K1. There is a corresponding increase in Vmax of proline transport by alar2 through the P system. The P system is defined operationally as that portion of the Na+-dependent velocity that remains when the A, ASC, and glutamine-inhibitable fraction are eliminated. The system is concentrative. Proline appears to be the preferred substrate. Li+ cannot be substituted for Na+. The system is moderately dependent upon pH. It obeys Michaelis-Menten kinetics and is not derepressible by starvation. There is no evidence for an N system in CHO-K1.
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PMID:Alanine-resistant mutants of Chinese hamster ovary cells, CHO-K1, producing increases in velocity of proline transport through the A, ASC, and P systems. 640 92

Bacteriophage Mud (Casadaban and Cohen 1979) was used to bring the transcription of the gene for beta galactosidase (lacZ) under the control of the promoter of the structural gene for colicin Ib (cia(Ib)) on a derivative of the Col plasmid Col-Ib.P9. Transcription of this fusion operon was stimulated by agents which damaged cellular DNA (mitomycin C, bleomycin and colicin E2). Increased transcription of the cia-lacZ operon could be detected within 13 min of the addition of these agents. In a strain bearing the tif-1 (recA441) mutation, constitutive expression of the SOS DNA repair system at 42 degree C also increased transcription of the cia-lacZ operon. Transcription of the cia-lacZ operon was also stimulated by inhibition of DNA gyrase activity with nalidixic acid but not with novobiocin. Transitory inhibition of protein synthesis with chloramphenicol or by proline starvation of a proline auxotroph did not stimulate cia-lacZ transcription. Transcription of the cia-lacZ operon was substantially reduced in the presence of a recA mutation, but was largely unaffected by a mutation in recB affecting the RecBC DNase or by catabolite repression. Control experiments in which the production of colicin Ib was measured confirmed that the experiments with the fusion operon gave an accurate indication as to the activity of the wild type cia gene except for the effect of catabolite repression, where we observed up to 99% reduction in colicin Ib production in strains carrying mutant crp or cya alleles. The overall results confirm previous suggestions that there was considerable similarity between the regulatory systems controlling production of colicins and the repressor-dependent regulation of lambdoid prophage induction.
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PMID:Transcription regulation of colicin Ib synthesis. 646 Sep 13

The general control of amino acid biosynthesis was investigated in Candida spec. EH 15/D, using single and double mutant auxotrophic strains and prototrophic revertants starved for their required amino acids. These experiments show that starvation for lysine, histidine, arginine, leucine, threonine, proline, serine, methionine, homoserine, asparagine, glutamic acid or aspartic acid can result in derepression of enzymes. A correlation was found between the degree of derepression, growth of strains, and concentration of required amino acids. The amino acids pool pattern of mutants and revertants is different from that in the wild type strain.
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PMID:[General control of amino acid biosynthesis in mutants of Candida spec. EH 15/D]. 663 44

The action of serum on the expression of the starvation-enhanced amino acid transport by System A (as a part of the adaptive regulation mechanism) has been studied in cultured fetal human fibroblasts. Serum enhanced L-proline uptake of cells starved in serum-free medium. This effect was rapid, proportional to the amount of pre-existing transporters, insensitive to cycloheximide and kinetically characterized by an increase of transport Vmax. These results can be interpreted to indicate that serum is essential for a vectorial post-translational event leading to insertion of transport proteins into the cell membrane.
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PMID:Post-translational control by carrier availability of amino acid transport in fetal human fibroblasts. 671 86

alpha-Aminoisobutyric acid is actively transported into yeast cells by the general amino acid transport system. The system exhibits a Km for alpha-aminoisobutyric acid of 270 microM, a Vmax of 24 nmol/min per mg cells (dry weight), and a pH optimum of 4.1-4.3. alpha-Aminoisobutyric acid is also transported by a minor system(s) with a Vmax of 1.7 nmol/min per mg cells. Transport occurs against a concentration gradient with the concentration ratio reaching over 1000:1 (in/out). The alpha-aminoisobutyric acid is not significantly metabolized or incorporated into protein after an 18 h incubation. alpha-Aminoisobutyric acid inhibits cell growth when a poor nitrogen source such as proline is provided but not with good nitrogen sources such as NH+4. During nitrogen starvation alpha-aminoisobutyric acid strongly inhibits the synthesis of the nitrogen catabolite repression sensitive enzyme, asparaginase II. Studies with a mutant yeast strain (GDH-CR) suggest that alpha-aminoisobutyric acid inhibition of asparaginase II synthesis occurs because alpha-aminoisobutyric acid is an effective inhibitor of protein synthesis in nitrogen starved cells.
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PMID:Transport and metabolic effects of alpha-aminoisobutyric acid in Saccharomyces cerevisiae. 675 63


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