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)

Cytoplasmic and mitochondrial molecular forms of glutamine synthetase (CE 6.3.1.2) have been isolated from the carp muscle with purification degree of 100 and 165 times and output 9.0%. It is established that the temperature optimum of the cytoplasmic form activity is 30 degrees C and that of mitochondrial one--20 degrees C; the pH optimum for the both molecular forms is 6.0 and 8.2. The optimal ratio [Me2+] : [ATP] for the isolated form is 2:1; Km (seeming) of the cytoplasmic form in the presence of Mg2+ is 6.0 mM for glutamate, 0.035 for ammonium, for ATP 0.5 and 0.7 for magnesium ions; these values for the mitochondrial form are: 14.3, 0.048, 1.0 and 0.8 mM, respectively. Activity of the both glutamine synthetases with Mg2+ ions is almost by 50% higher than that of glutamine synthetases with Mn2+ ions. Seasonal regularities of the synthesis of molecular glutamine synthetase forms have been established in vivo. Cytoplasmic form is present in the muscles all year round, while mitochondrial one only in winter at low temperature of the environment and fish starvation. Differences in properties and seasonal character of synthesis of molecular glutamine synthetase forms in carp muscles are a result of diversity of their functional role.
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PMID:[Multiple molecular forms of glutamine synthetase in carp muscles]. 167 61

1. The effects of altering metabolism on Na(+)-K(+)-Cl- co-transport were studied in ferret red cells. Na(+)-K(+)-Cl- co-transport was measured as the bumetanide-sensitive uptake of 86Rb. 2. Glucose, but not inosine or adenosine, sustained metabolism and maintained cell ATP content ([ATP]i) at the physiological level. [ATP]i could be reduced by prolonged incubation of cells in a substrate-free medium or more quickly by incubating cells with 2-deoxyglucose or with a mixture of iodoacetamide and glucose. 3. Na(+)-K(+)-Cl- co-transport activity was inhibited when [ATP]i was reduced to below 100 mumol (1 cell)-1 by starvation or by treatment with 2-deoxyglucose. However, a unique relationship between [ATP]i and activity could not be found. [ATP]i and the method and time course of ATP depletion all influenced activity. The inhibition of Na(+)-K(+)-Cl- co-transport, caused by reducing [ATP]i could be partially reversed by restoring [ATP]i to normal. 4. Increasing the concentration of intracellular ionized magnesium [( Mg2+]i) did not stimulate co-transport activity in ATP-depleted cells. This contrasts with the substantial stimulation seen in cells with normal [ATP]i. 5. Vanadate stimulated Na(+)-K(+)-Cl- co-transport activity in ATP-depleted cells but not in cells with normal [ATP]i. Fluoride did not affect activity at any [ATP]i. 6. The effects of some sulphydryl reagents on Na(+)-K(+)-Cl- co-transport were also examined. n-Ethylmaleimide (1 mM) inhibited Na(+)-K(+)-Cl- co-transport while it stimulated bumetanide-resistant potassium transport. Dithiothreitol (1 mM) did not affect activity. Iodoacetamide (6 mM) appeared to reduce the inhibition of cotransport activity seen at low [ATP]i but also greatly increased cell fragility. 7. The data suggest that activity of the Na(+)-K(+)-Cl- co-transport system is controlled by a cycle of phosphorylation and dephosphorylation with the phosphorylated form being active. Phosphorylation and transport appear to be almost maximal in ferret red cells with normal [ATP]i. Reduction of [ATP]i may allow changes in phosphatase activity to manifest as changes in transport rate. Differences in the balance between phosphorylation and dephosphorylation may explain tissue-dependent variations in the response of the system to various stimuli.
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PMID:The effects of metabolism on Na(+)-K(+)-Cl- co-transport in ferret red cells. 189 Jun 46

Porphyromonas gingivalis W50, W83, A7A1-28, and ATCC 33277 were investigated for their abilities to lyse sheep, human, and rabbit erythrocytes. All of the P. gingivalis strains studied produced an active hemolytic activity during growth, with maximum activity occurring in late-exponential-early-stationary growth phase. The enzyme was cell bound and associated with the outer membrane. Fractionation of P. gingivalis W50 localized the putative hemolysin almost exclusively in the outer membrane fraction, with significant hemolytic activity concentrated in the outer membrane vesicles. Ca2+ and Mg2+ ions significantly increased the expression of hemolytic activity. Hemolytic activity was inhibited by proteinase K, trypsin, the proteinase inhibitors Na-P-tosyl-L-lysine chloromethyl ketone and benzamidine, the metabolic inhibitor M-chlorophenyl-hydrazone, and iodoacetate. KCN and sodium azide (NaN3) only partially inhibited P. gingivalis hemolytic activity, while antiserum to whole cells of each of the P. gingivalis strains had a significant inhibitory effect on hemolytic activity. The P. gingivalis W50 hemolysin was inhibited by cysteine, dithiothreitol, and glutathione at concentrations of at least 10 mM; at low concentrations (i.e., 2 mM), dithiothreitol did not completely inhibit hemolytic activity. Heating to temperatures above 55 degrees C resulted in an almost complete inhibition of hemolytic activity. The effect of heme limitation (i.e., iron) on hemolysin production indicated that either limitation or starvation for heme resulted in significantly increased hemolysin production compared with that of P. gingivalis grown in the presence of excess heme.
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PMID:Hemolytic activity in the periodontopathogen Porphyromonas gingivalis: kinetics of enzyme release and localization. 203 55

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

Activation of acetyl-CoA carboxylase during incubation of crude extracts of lactating rat mammary gland with Mg2+ and citrate can be blocked by NaF, suggesting that it represents a dephosphorylation of the enzyme. The greater extent of activation in extracts from 24 h-starved rats (200%) compared with fed controls (70%) implies that the decrease in acetyl-CoA carboxylase activity in response to 24 h starvation may involve increased phosphorylation of the enzyme. Acetyl-CoA carboxylase was purified from the mammary glands of lactating rats in the presence of protein phosphatase inhibitors by avidin-Sepharose chromatography. Starvation of the rats for 24 h increased the concentration of citrate giving half-maximal activation by 75%, and decreased the Vmax. of the purified enzyme by 73%. This was associated with an increase in the alkali-labile phosphate content from 3.3 +/- 0.2 to 4.5 +/- 0.4 mol/mol of enzyme subunit. Starvation of lactating rats for 6 h, or short-term insulin deficiency induced by streptozotocin injection, did not effect the kinetic parameters or the phosphate content of acetyl-CoA carboxylase purified from mammary glands. The effects of 24 h starvation on the kinetic parameters and phosphate content of the purified enzyme were completely reversed by re-feeding for only 2.5 h. This effect was blocked if the animals were injected with streptozotocin before re-feeding, suggesting that the increase in plasma insulin that occurs on re-feeding was responsible for the activation of the enzyme. The effects of re-feeding 24 h-starved rats on the kinetic parameters and phosphate content of acetyl-CoA carboxylase could be mimicked by treating enzyme purified from 24 h-starved rats with protein phosphatase-2A in vitro. Our results suggest that, in mammary glands of 24 h-starved lactating rats, insulin brings about a dephosphorylation of acetyl-CoA carboxylase in vivo, which may be at least partly responsible for the reactivation of mammary lipogenesis in response to re-feeding.
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PMID:The role of acetyl-CoA carboxylase phosphorylation in the control of mammary gland fatty acid synthesis during the starvation and re-feeding of lactating rats. 287 30

Inositol-starved Saccharomyces uvarum cells hydrolyse exogenous glycerophosphodiesters to glycerol 3-phosphate and the corresponding alcohol. Glycerophosphodiesterase activity is highest with glycerophosphoinositol as the substrate, followed by glycerophosphoethanolamine and glycerophosphocholine; the artificial substrate for phosphodiesterases, bis-p-nitrophenylphosphate,is hydrolysed at a similar rate as compared with glycerophosphoinositol. Competition experiments suggest that distinct phosphodiesterases are involved in the hydrolysis of the respective substrates. An Mg2+-dependent glycerophosphate phosphohydrolase with a pH-optimum around neutral cleaves glycerol 3-phosphate to glycerol and orthophosphate. The latter is taken up into cells without first entering the pool of orthophosphate present in the growth medium. Accessibility to substrates with whole cells, adhesion of enzymes to spheroplasts, and solubilization of enzymes by treatment of whole cells with Triton X-100 under mild conditions suggest that phosphodiesterases and glycerol-3-phosphate phosphohydrolase are loosely associated with the outer side of the yeast plasma membrane. Enzyme activities are only marginal in inositol-supplemented cells, but are derepressed not only by inositol deficiency, but also by starvation of orthophosphate.
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PMID:Utilization of exogenous glycerophosphodiesters and glycerol 3-phosphate by inositol-starved yeast, Saccharomyces uvarum. 298 39

The effect of Ep on different ATPases and acetylcholinesterase of rat RBC membrane was studied. Starvation caused a slight decrease in Mg2+-, Ca2+-, and Na+ + K+-ATPases. However, these enzyme activities were markedly increased on Ep treatment of starved rats. Specific activities of all three ATPases increased linearly with increasing concentration of Ep. Under identical conditions the hormone failed to stimulate the ATPase activity of liver plasma membrane. Desensitization by fluoride of allosteric inhibition of erythrocyte membrane-bound Na+ + K+-ATPase was observed under starvation which showed a return to normal n values on Ep administration. The enzyme from normal animals was inhibited almost completely at 0.1 mM fluoride whereas enzyme from starved and Ep-treated animals showed only about 50% inhibition at that fluoride concentration. Ep increased the acetylcholinesterase activity of normal RBC membrane to a small extent whereas the stimulation was much higher under starvation. The fluoride inhibition curve of this enzyme changed from sigmoidal to hyperbolic under starvation which again changed to allosteric on administration of Ep. These changes were closely correlated to n values. Red blood cells of Ep-treated animals became more susceptible to osmotic shock under the experimental conditions.
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PMID:Effect of erythropoietin on the different ATPases and acetylcholinesterase of rat RBC membrane. 302 76

The subcellular distribution of Mg2+-dependent phosphatidate phosphohydrolase in rat adipocytes between a soluble and a membrane-bound fraction was measured by using both centrifugal fractionation and a novel Millipore-filtration method. The relative proportion of the phosphohydrolase associated with the particulate fraction was increased on incubation of cells with noradrenaline or palmitate. Insulin on its own decreased the proportion of the phosphohydrolase that was particulate and abolished the effect of noradrenaline, but not that of palmitate. The effect of noradrenaline on phosphohydrolase distribution was rapid, the effect being maximal within 10 min. Noradrenaline exerted this effect with a similar concentration-dependence to its lipolytic effect. Inclusion of albumin in homogenization buffers decreased the proportion of the phosphohydrolase that was particulate, but did not abolish the effect of noradrenaline. There was limited correlation between the proportion of the phosphohydrolase that was particulate and the measured rate of triacylglycerol synthesis in adipocytes incubated under a variety of conditions. Starvation, streptozotocin-diabetes and hypothyroidism decreased the specific activities of the phosphohydrolase and glycerolphosphate acyltransferase in homogenates from epididymal fat-pads. Restoration of these activities in the diabetic state was seen after administration of insulin over 2 days or, in the short term, within 2 h after a single administration of insulin. Administration of thyroxine over 3 days caused restoration of these activities in the hypothyroid state. Starvation and diabetes increased the proportion of the phosphohydrolase found in the microsomal fraction. This change was not seen when albumin was present in homogenization buffers. The possible role of fatty acids as regulators of the intracellular translocation of the phosphohydrolase, together with the role of this enzyme in the regulation of triacylglycerol synthesis in adipose tissue, is discussed.
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PMID:Adipose-tissue Mg2+-dependent phosphatidate phosphohydrolase. Control of activity and subcellular distribution in vitro and in vivo. 302 68

The ATP-binding component (Component II, hereafter referred to as ClpA) of a two-component, ATP-dependent protease from Escherichia coli has been purified to homogeneity. ClpA is a protein with subunit Mr 81,000. It has an intrinsic ATPase activity and activates degradation of protein substrates only in the presence of a second component (Component I, hereafter referred to as ClpP), Mg2+, and ATP. The amount of ClpA varies by less than a factor of 2 in cells grown in different media and at temperatures from 30 to 42 degrees C. ClpA does not appear to be a heat-shock protein since its synthesis is not dependent on htpR. Antibodies against purified ClpA were used to identify lambda transducing phage bearing the clpA gene. The cloned gene contains a DNA sequence expected to code for the first 28 amino acids of ClpA, which were determined by protein sequencing of purified ClpA. The clpA gene in the phage was mutated by insertion of delta kan defective transposons and the mutations were transferred to E. coli by homologous recombination. The clpA gene was mapped to 19 min on the E. coli chromosome. Mutant cells with insertions early in the gene produce no ClpA protein detectable in Western blots, and extracts of such mutant cells have no detectable ClpA activity. clpA- mutants grow well under all conditions tested and are not defective in turnover of proteins during nitrogen starvation nor in the turnover of such highly unstable proteins as the lambda proteins O, N, and cII, or the E. coli proteins SulA, RcsA, and glutamate dehydrogenase. The degradation of abnormal canavanine-containing proteins is defective in clpA mutants especially in cells that also have a lon- mutation. Extracts of clpA- lon- cells have ATP-dependent casein degrading activity.
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PMID:The two-component, ATP-dependent Clp protease of Escherichia coli. Purification, cloning, and mutational analysis of the ATP-binding component. 304 6

The nickel transport system of Clostridium thermoaceticum was investigated with 63NiCl2 and an anaerobic microfiltration transport assay. Transport was optimal at pH 7 to pH 7.5 and 65 degrees C and decreased in the presence of metabolic uncouplers and inhibitors. Exogenous nickel was concentrated 3,000-fold over the apparent nickel concentration gradient during typical transport assays. Stored cellular energy appeared to provide a short-term energy source to power nickel transport, and starvation experiments demonstrated external energy source stimulation of nickel translocation. The apparent Km and Vmax for nickel transport by carbon monoxide-dependent chemolithotrophic cells approximated 3.2 microM Ni and 400 pmol of Ni transported per min per mg of cells (dry weight), respectively. Magnesium, calcium, cobalt, iron, manganese, and zinc did not inhibit the transport of nickel.
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PMID:Energy-dependent, high-affinity transport of nickel by the acetogen Clostridium thermoaceticum. 319 12


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