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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthesis of at least six enzymes implicated in methionine biosynthesis in Saccharomyces cerevisiae is regulated pleiotropically by two independent regulatory systems. Repression of enzyme synthesis is promoted either by exogenous methonine or by exogenous S-adenosylmethionine (SAM). The regulatory system acting in methionine mediated repression seems to comprise methionyl-tRNA-met as a co-repressor and the other system, acting in SAM repression, comprises SAM as a co-repressor. This concept gives a role in regulation to the two activated forms of methionine. Moreover, evidence is presented that the "SAM repressor" probably acts at a post-transcriptional level while the "met-tRNAmet repressor" would be active at the transcriptional level. These conclusions have been based on two series of experiments: one using a mutant bearing a modified methionyl-tRNA synthetase [L-methionine: tRNA-met ligase (AMP-forming) E.C.6.1.1.10] and one studying the kinetics of depression of synthesis of one of the biosynthetic enzymes after repression either by exogenous methionine or by exogenous SAM. Our results are strengthened by the use of two different drugs: one inhibiting messenger RNA synthesis and the other inhibiting protein synthesis.
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PMID:Regulation of methionine synthesis in Saccharomyces cerevisiae operates through independent signals: methionyl-tRNAmet and S-adenosylmethionine. 78 67

Three experiments determined if the methionine requirement of broiler chicks was affected by coccidial infection. Chicks were fed a corn-soy or a corn-soy-pea basal diet containing 0.73% and 0.62% total sulfur amino acids (TSAA), respectively. Levels of 0 to 0.45% DL-methionine were added, with and without 0.01% monensin sodium. In two experiments, the chicks were inoculated at two weeks of age with a mixture of oocysts of E. acervulina, E. maxima, E. tenella, E. necatrix and E. brunetti. Lesion scores on the intestines and ceca, and blood carotenoid levels were determined at three weeks. The experiments were terminated at four weeks. A level of methionine greater than 0.47% and of TSAA greater than 0.83% was necessary to obtain maximum growth rate in uninoculated chicks. No evidence of dermatitis was observed. Growth rate and feed efficiency of chicks infected with coccidiosis were more severly depressed when the diet was not supplemented with methionine. Infections of coccidia and low levels of methionine, which in themselves did not produce any significant change in weight gain, did give a significant weight depression in combination. Adding monensin to the diet prevented a reduction in growth rate and feed efficiency of inoculated chicks fed adequate methionine. Monensin did not completely prevent the adverse effects of a coccidial infection, based on feed efficiency, when chicks were fed diets inadequate in methionine. Blood carotenoid levels were not affected by methionine level, but were significantly lowered by coccidial infection in the absence of monensin. Intestinal and cecal lesions in inoculated chicks were significantly reduced by including monesin in the diet. Although the coccidial infection more severly affected the performance of chicks fed diets deficient in methionine, satistical analysis of pooled data indicated no difference in the quantitative requirement of chicks for methionine. Therefore, a level of methionine and cystine adequate for optimum growth under the coccidial-free conditions should be adequate for chicks when infected with coccidia.
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PMID:Effect of dietary methionine status on response of chicks to coccidial infection. 93 21

1. Three sequential experiments, each lasting 8 weeks, were carried out on 576 singly-caged light hybrids. 2. In experiment 1 egg production was 84% using a conventional control diet, 61% with a basal low-protein diet, and 79% with the basal diet supplemented with 10 essential amino acids+L-glutamic acid (GA). 3. In experiment 2 supplementation with lysine and methionine (L+M) alone increased egg production significantly from 54 to 72%, compared with 83% with the conventional diet. 4. In experiment 3 egg production was 55% with the basal diet, 71% with the basal diet+L+M, 75% with a diet containing 141 g protein/kg+L+M, and 73% with the conventional diet. 5. In all three experiments supplementation with GA alone either gave no significant response or a depression in production. 6. Daily intakes of 1-24 g nitrogen as non-essential amino acids and 13 to 14 g total crude protein per bird resulted in good egg production. Supplementation of the basal diet with L+M resulted in a daily intake of 413 mg methionine/bird day which was considered adequate, and a daily intake of 710 mg lysine which was considered slightly inadequate.
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PMID:Responses of laying hens to a low-protein diet supplemented with essential amino acids, L-glutamic acid and/or intact protein. 93 60

A series of experiments was conducted using White Leghorn male chicks to study the arginine-lysine relationship in rapeseed meal (RSM). Semi-purified diets containing 15% protein either from RSM or soybean meal (SBM) were fed. Arginine supplementation completely reversed the growth depression caused by the addition of lysine to RSM diets. Potassium acetate was only partially effective in alleviating the growth depression caused by supplemental lysine, while polyvinyl pyrrolidone significantly reduced chick performance. Tannic acid addition (1.5%) to SBM diets resulted in a severe growth depression which was partially corrected by the supplementation of arginine in the presence of methionine. Supplementation of these amino acids to RSM had a less drastic effect. It is suggested that a portion of the arginine in rapeseed meal may be required for metabolic processes involved in tannic acid excretion.
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PMID:Arginine-lysine relationship in rapeseed meal. 94 70

Similar depressions in growth were observed when rats consumed a 10% casein basal diet containing equal quantities of either methionine or S-methyl-L-cysteine. Supplemental glycine or serine partially alleviated the growth depression caused by the high levels of methionine but were ineffective in alleviating the growth depression caused by high levels of S-methylcysteine. Histological examination of five organs of rats fed the basal, high methionine or high S-methylcysteine diet for 6, 13 or 20 days revealed that only the spleens were affected in that there was erythrocyte engorgement and an accumulation of hemosiderin. The intensity of iron staining in spleens decreased from the second to the third week. The similarity in the depression of growth and splenic damage observed in rats consuming high levels of methionine or S-methylcysteine is consistent with an earlier suggestion that metabolism of the methionine or S-methylcysteine is consistent with an earlier suggestion that metabolism of the methyl group is in some way involved in the toxicity of methionine.
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PMID:Growth depression and tissue reaction to the consumption of excess dietary methionine and S-methyl-L-cysteine. 99 52

The object of this study was to determine the effects of individual amino acid supplements on the development of tyrosine toxicity in growing rats fed 10% casein containing 5% tyrosine. Each amino acid was added at levels equivalent to its content in 20% casein. Supplement of methionine to the high tyrosine diet partially alleviated both growth depression and pathological lesions. Threonine and cystine had a somewhat beneficial effect, but the single addition of other amino acids was not effective. Besides, some amino acids enhanced the severity of the toxicity even more. The effects of methionine supplementation were highest at 0.66 to 1.32% levels (equivalent to the methionine content in 20 to 40% casein). By the supplement of both 0.66% methionine and 0.90% threonine to the high tyrosine diet, growth was significantly improved and toxic lesions were completely prevented. It was confirmed that the counteracting effects to the toxicity, caused by the extra addition of protein (casein) to rats fed a high tyrosine-low protein diet, were mainly attributed to the effectiveness of the methionine and threonine, i.e., first-and second-limiting amino acids, respectively, contained in it.
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PMID:Effect of individual amino acid supplements on the toxicity of excess tyrosine in rats. 101 Oct 50

The authors studied C14-leucine and S35-methionine incorporation into the brain tissue homogenates and protein from different parts of the brain of rats subjected to intrauterine hypoxia. Depression of protein synthesis in certain brain structures, particularly in the hyppocampus was observed alongside with the stimulation of the amino acid incorporation into proteins of the other parts of the brain. Changes of the amino acid penetration into tissue homogenates fialed to correlate with the rate of their incorporation into proteins in separate structures of the brain. Experimental results pointed to disfunction in the protein metabolism intensity and in the blood-brain barrier system occurring during the late ontogenesis in rats surviving the intrauterine hypoxia.
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PMID:[Changes in the incorporation of labelled amino acids into proteins and homogenates of the brains of rats that have suffered acute hypoxia in the antenatal period]. 103 1

Significant derepression of serine hydroxymethyltransferase is observed when metE or metF mutants of Escherichia coli K-12 are grown on D-methionine sulfoxide instead of L-methionine. The derepression is not prevented by addition of glycine, adenosine, guanosine, guanosine, and thymidine to the growth medium of methionine-limited metF cells showing that the effect is not due to a secondary deficiency of these nutrients. On the other hand, methionine-limited growth of a metA mutant leads to derepression of met regulon enzymes, but only a marginal increase in serine hydroxymethyltransferase activity. A prototrophic metJ strain grown on minimal medium has about the same serine hydroxymethyltransferase as the wild type. The enzyme activity of the metJ strain is not influenced by methionine, but it is partially repressed by glycine, adenosine, and thymidine. metK strains have about twice as much serine hydroxymethyltransferase activity as wild-type cells when grown on minimal medium; but when both types of cells are grown on medium supplemented with glycine, adenosine, guanosine, and thymidine, their enzyme activities are about the same. The results show that methionine limitation can lead to depression of serine hydroxymethyltransferase, but that the regulatory system is different from the one which controls the methionine regulon.
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PMID:Role of methionine in the regulation of serine hydroxymethyltransferase in Eschericia coli. 110 Jun 3

Plasma albumin levels were measured in partially hepatectomized, sham operated and control rats. The levels fell in both the partially hepatectomized and sham operated groups; while the latter group returned to normal within a few days, the low plasma albumin in the partially hepatectomized animals was sustained. Albumin synthesis rates in the isolated perfused rat liver were measured in the three groups of animals at varying intervals after partial hepatectomy. There was a significant depression of albumin synthesis rate in terms of both liver and whole animal weights when compared to the sham operated and control animals. This depression was almost completely reversed by the addition of arginine, asparagine, isoleucine, leucine, lysine, methionine, phenylalanine, proline, threonine, tryptophan and valine added together to 10 times their normal plasma concentrations. The addition of hydrocortisone had no effect on the albumin synthesis rate after partial hepatectomy. Studies in vivo in the three groups of animals (partially hepatectomized, sham operated and control animals) revealed a fall in the albumin catabolic rate after partial hepatectomy coinciding with the fall in the albumin synthesis rate. An hypothesis whereby the amino acids may have their stimulatory effect is proposed.
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PMID:Albumin synthesis and catabolism following partial hepatectomy in the rat. The effects of amino acids and adrenocortical steroids on albumin synthesis after partial hepatectomy. 115 98

Several assays with young chicks fed crystalline amino acid diets were conducted to investigate the effects of supplemental glycine, serine, threonine, arginine, or adenine on the growth depression resulting from consumption of excess methionine. Glycine was partially effective in alleviating the growth depression caused by excess methionine. The addition of threonine together with glycine improved performance still further. Efficiency of food utilization for weight gain was greater in birds fed the methionine-imbalanced diet supplemented with glycine and threonine than in those fed the control diet. Supplemental glycine, threonine, or adenine, but not arginine, was effective in ameliorating the hypoglycemia resulting from consumption of excess methionine. The rate of oxidation of a tracer dose of threonine was increased markedly by feeding 1.25% excess methionine. This was reflected in a 20% depression in threonine utilization for weight gain as measured by slope ratio. The data suggest that both threonine and glycine are antagonized by consumption of excess methionine.
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PMID:Methionine toxicity in the chick: nutritional and metabolic implications. 115 32


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