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:C0392674 (exhaustion)
13,658 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The value of the adenylate energy charge, i.e. ([ATP] + 1/2[ADP])/([ATP] + [ADP] + [AMP]), during batch culture of Beneckea natriegens remained relatively constant during the exponential and early stationary phases of the growth cycle. During exponential growth the intracellular ATP content remained constant, the amount of ATP in the culture increasing proportionally with growth; these conditions were unaltered during growth in the presence of added cyclic AMP. On cessation of growth, significant variation in bacterial ATP content was observed depending on whether growth of the cultures terminated due to exhaustion of carbon or nitrogen from the medium, and on the presence or absence of added cyclic AMP.
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PMID:Adenylate energy charge during batch culture of Beneckea natriegens. 1 48

Clobazam is a benzodiazepine with special molecular structure (its nitrogen radicals are in positions 1 and 5, rather than 1 and 4 as in all other antiepileptic benzodiazepines), and it is rapidly effective--in a matter of hours or within a few days--against all varieties of epileptic seizures in 52% of subjects treated with it. Its effects are relatively mild. Unfortunately, its outstanding antiepileptic properties are exhausted after only a few weeks in one-third of all cases. The authors discuss the potential significance of this phenomenon, and stress the urgent need for intensive study of the basic mechanism governing exhaustion of the antiepileptic properties of the benzodiazepines in general and clobazam in particular.
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PMID:Antiepileptic properties of clobazam, a 1-5 benzodiazepine, in man. 38 76

When in the primeval atmosphere ammonia approached exhaustion, bacteria resembling clostridia developed mechanisms for nitrogen fixation. The fixation was continued by the photosynthetic bacteria. In the later, oxidizing, atmosphere the combined activities of the nitrificants and the denitrificants could lead to a large-scale cyclic regeneration of free nitrogen. The possibility of a descent of the nitrificants from hypothetical photosynthetic bacteria, which used ammonia as electron donor, is discussed. The anoxygenic atmosphere contained no nitrate, and therefore neither nitrate fermentation nor nitrate respiration were precursors of aerobic respiration. This evolved from photosynthesis. In nitrate fermentation, nitrate serves only as an incidental electron acceptor; this process is merely an evolutionary sideline. Nitrate respiration evolved from aerobic respiration. While in present conditions the reaction of nitrogen with oxygen and water to give nitrate is exergonic and possibly occurs at a low rate, the antagonistic action of the denitrificants maintains the stationary concentrations of nitrogen and oxygen in the air.
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PMID:The history of inorganic nitrogen in the biosphere. 76 87

Conditions causing cyanide-resistant respiration were studied in the yeast Candida lipolytica. This type of respiration was found when the culture growing on glucose, glycerol, hexadecane, or acetate exhuasted the substrate and passed from the logarithmic to stationary growth phase; the same phenomenon can be induced by exhaustion of phosphorus or nitrogen in the glucose medium. The yeast culture growing on lactate, ethanol, pyruvate, alpha-ketoglutarate, malate, or succinate is characterized by cyanide-resistant respiration even at the beginning of the logarithmic growth phase. The values of pH in the incubation medium have no effect on the time of manifestation of cyanide-resistant respiration.
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PMID:[Detection of cyanide resistant respiration among Candida lipolytics yeasts]. 94 Apr 87

In divers, breathing with artificial gas mixtures of 14.3 g/l density, the maximal lung ventilation and the maximal velocity of forced expiration decrease along with an increase in the mixture density. The decrease of these parameters is unrelated to nitrogen anesthesia or exhaustion of respiratory muscles. The findings suggest that the value of both these parameters is only limited by expiratory dynamic compression of respiratory pathways.
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PMID:[Maximal pulmonary ventilation and the forced expiratory rate under hyperbarism]. 133 Jul 53

The seasonal distribution of particulate lipids coupled with N-nutrient availability was studied in eutrophic Lake Aydat (Massif Central, France). The concentrations of lipids ranged between 196.9 and 2971.5 micrograms.l-1 (mean +/- s.d. = 1090.1 +/- 705.5 micrograms.l-1. Lipids were abundant in summer and fall when nitrates were insufficient reflecting thus an orientation of cell metabolism towards an accumulation of storage products. In such conditions, the heterocystous Cyanobacteria were found to develop due to their competitive advantage of exploiting atmospheric nitrogen. Their lipid metabolism did not seem to be affected at least partially by NO3- exhaustion.
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PMID:[Effects of nitrogen nutritional deficiency on the distribution of particular lipids in a eutrophic lake milieu]. 134 Nov 39

The response of non-differentiating bacteria to nutrient starvation is complex and includes the sequential synthesis of starvation-inducible proteins. Although starvation for different individual nutrients generally provokes unique and individual patterns of protein expression, some starvation stimulons share member proteins. Two-dimensional polyacrylamide gel electrophoresis revealed that the synthesis of a small (13.5 kDa) cytoplasmic protein in Escherichia coli was greatly increased during growth inhibition caused by the exhaustion of any of a variety of nutrients (carbon, nitrogen, phosphate, sulphate, required amino acid) or by the presence of a variety of toxic agents including heavy metals, oxidants, acids and antibiotics. To determine further the mode of regulation of the protein designated UspA (universal stress protein A) we cloned the gene encoding the protein by the technique of reverse genetics. We isolated the protein from a preparative two-dimensional polyacrylamide gel, determined its N-terminal amino acid sequence, and used this sequence to construct a degenerate oligonucleotide probe. Two phages of the Kohara library were found to contain the gene which then was subcloned from the DNA in the overlapping region of these two clones. The amino acid sequence, deduced from the nucleotide sequence of the uspA gene, shows no significant homology with any other known protein. The uspA gene maps at 77 min on the E. coli W3110 chromosome, and is transcribed in a clockwise direction. The increase in the level of UspA during growth arrest was found to be primarily a result of transcriptional activation of the corresponding gene. The induction was independent of the RelA/SpoT, RpoH, KatF, OmpR, AppY, Lrp, PhoB and H-NS proteins during stress conditions that are known to induce or activate these global regulators. The -10 and -35 regions upstream of the transcriptional start site of the uspA gene are characteristic of a sigma 70-dependent promoter.
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PMID:Cloning, mapping and nucleotide sequencing of a gene encoding a universal stress protein in Escherichia coli. 145 57

One of the most important nutritional goals amongst athletes is to maintain adequate energy and fluid balance, since these are subject to relatively rapid changes and are directly related to performance and health. This may especially be the case when exercise intensity is high. Furthermore, when due to exercise and environmental stress food and fluid intake become depressed. In such conditions there may be a dramatic increase in the utilization of carbohydrate (CHO), fluid, and in some instances protein. These increased requirements may then not be covered. Insufficient replacement of CHO may lead to hypoglycemia, altered protein metabolism, central fatigue and exhaustion. Large sweat losses may pose a risk to health by inducing severe dehydration, impaired blood circulation and heat transfer, leading to heat exhaustion and collapse. Inadequate CHO and protein intake leads to a negative nitrogen balance, which over the long term will lead to a loss of muscle mass. In the scope of this presentation we will refer to the most important nutritional factors which are known to affect performance over a short term, at sea level and altitude.
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PMID:Nutritional aspects of health and performance at lowland and altitude. 148 43

Carnitine has a potential effect on exercise capacity due to its role in the transport of long-chain fatty acids into the mitochondria for beta-oxidation, the export of acyl-coenzyme A compounds from mitochondria and the activation of branched-chain amino acid oxidation in the muscle. We studied the effect of carnitine supplementation on palmitate oxidation, maximal exercise capacity and nitrogen balance in rats. Daily carnitine supplementation (500 mg.kg-1 body mass for 6 weeks) was given to 30 rats, 15 of which were on an otherwise carnitine-free diet (group I) and 15 pair-fed with a conventional pellet diet (group II). A control group (group III, n = 6) was fed ad libitum the pellet diet. Palmitate oxidation was measured by collecting 14CO2 after an intraperitoneal injection of [1-14C]palmitate and exercise capacity by swimming to exhaustion. After carnitine supplementation carnitine concentrations in serum were supranormal [group I, total 150.8 (SD 48.5), free 78.9 (SD 18.4); group II, total 170.9 (SD 27.9), free 115.8 (SD 24.6) mumol.l-1] and liver carnitine concentrations were normal in both groups [group I, total 1.6 (SD 0.3), free 1.2 (SD 0.2); group II, total 1.3 (SD 0.3), free 0.9 (SD 0.2) mumol.g-1 dry mass]. In muscle carnitine concentrations were normal in group I [total 3.8 (SD 1.2), free 3.2 (SD 1.0) mumol.g-1 dry mass] and increased in group II [total 6.6 (SD 0.5), free 4.9 (SD 0.9) mumol.g-1 dry mass].(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of carnitine loading on long-chain fatty acid oxidation, maximal exercise capacity, and nitrogen balance. 150 35

Mammals and birds adapt to prolonged fasting by mobilizing fat stores and minimizing protein loss. This strategy ends with an increase in protein utilization associated with behavioural changes promoting food foraging. Using the Zucker rat as a model, we have investigated the effect of severe obesity on this pattern of protein loss during long-term fasting. Two interactions between the initial adiposity and protein utilization were found. First, protein conservation was more effective in obese than in lean rats: fatty rats had a three times lower daily nitrogen excretion and proportion of energy expenditure deriving from proteins, and a lower daily protein loss in various muscles. This phase of protein sparing is moreover nine times longer in the fatty rats. Second, obese animals did not show the late increase in nitrogen excretion that occurred in their lean littermates. Total body protein loss during starvation was larger in fatty rats (57% versus 29%) and, accordingly, total protein loss was greater in their muscles. At the end of the experiment, lean and obese rats had lost 98% and 82%, respectively, of their initial lipid reserves, and fatty rats still had an obese body composition. These results support the hypothesis that in severely obese humans and animals a lethal cumulative protein loss is reached long before the exhaustion of fat stores, while the phase of protein conservation is still continuing. In contrast, in lean rats, survival of fasting seems to depend on the availability of lipid fuels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relationships between lipid availability and protein utilization during prolonged fasting. 150 87


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