Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
 5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Components of membranes isolated from Spiroplasma citri and corn stunt spiroplasma grown at 28 degrees C were analyzed. On a protein basis, lipid phosphorus was lower and cholesterol was higher in S. citri. Only minor differences between the two species were found in fatty acid composition, reduced nicotinamide adenine dinucleotide diaphorase, and adenosine triphosphatase.
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PMID:Comparison of the membrane composition of Spiroplasma citri and the corn stunt Spiroplasma. 42 10

Sheep erythrocyte membranes have been shown in this laboratory to undergo spontaneous vesiculation when incubated at 4 degrees, fractionating into two bands in dextran gradients (R. McGuire and R. Barber, submitted for publication). While vesicles were observed to be formed in several solvent systems, incubation in the presence of complexors to remove divalent cations was found to be the most efficient method for both vesicle formation and their detachment from the residual membrane. We report here on the characterization of these vesicles formed by spontaneous vesiculation. In the presence of a hypotnoic buffer containing 1 mM EDTA, vesicle production proceeds linearly up to 50 hours and declines, reaching its maximum at 72 hours with up to 20% of the total membrane protein found in the upper band. This upper band is shown in electron micrographs to be composed chiefly of closed vesicles, while the particles in the lower band appear morphologically similar to the original ghosts. Total phospholipid phosphorus and cholesterol in the vesicles are enriched to the same extent, giving a lipid to protein ratio of 2 times that found for whole ghosts. The vesicles contain the same individual phospholipids as the ghosts. The protein composition of these vesicles is unique, in that they are almost depleted in the known extrinsic membrane proteins, while containing practically all types of the various glycoproteins of the original membrane. The two main intrinsic membrane proteins (with apparent molecular weights of 160,000 and 100,000) are found almost exclusively in the vesicles, virtually depleted in the residual ghost-like particles. The protein with 160,000 molecular weight is shown here to be a glycoprotein, giving an anomalous molecular weight on sodium dodecyl sulfate gels and having a molecular weight of approximately 50,000 after lipid extraction. This same glycoprotein appears to fractionate with acetylcholinesterase. From the accessibilities of the substrates to the membrane acetylcholinesterase and NADH-diaphorase, it is concluded that the vesicles are right-side-out and sealed to small molecules. There are more membrane sialic acid residues accessible to neuraminidase in the vesicles (in terms of number of residues/mg og membrane protein) than in ghosts, further supporting the conclustion that these vesicles have a normal orientation and are enriched in glycoproteins. The specific activity of acetylcholinesterase in the vesicles is increased 5- to 6-fold over that found in the original ghosts and almost 20-fold over that in the residual ghost-like particles. Consequently, spontaneous vesiculation occurs simultaneously with the enrichement of specific membrane proteins in certain regions of the lipid bilayer. It is postulated that these domains in the membrane, containing clusters of specific intrinsic membrane proteins, bud out and subsequently release glycoprotein-enriched lipid vesicles.
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PMID:Glycoprotein-enriched vesicles from sheep erythrocyte ghosts obtained by spontaneous vesiculation. 93 96

Based on cytochemical analysis, the enzyme NADP phosphatase is most concentrated in the so-called intercalary cisternae from the mid-region of the Golgi apparatus stack. Using free-flow electrophoresis to separate different Golgi regions of rat liver Golgi apparatus, the NADP phosphatase activity, based on estimation of the rate of release of inorganic phosphate from NADP under standard conditions, was similarly localized to membrane fractions from the center of electrophoretic separations. Peak specific activities for both a putative cis marker (NADH-cytochrome c reductase) and an established trans marker (galactosyltransferase) coincided with minima in NADP phosphatase activity, in agreement with the cytochemical observations. The pattern of distribution of enzyme activity for NADP phosphatase differed from that of both acid phosphatase and glucose-6-phosphatase. The pH optimum was 5.0, the Km for NADP was 0.6 mM and a corresponding production of NAD and inorganic phosphorus was shown. Taken together with other markers for free-flow electrophoresis separation, the NADP phosphatase will provide considerable utility as a specific marker to help identify intercalary cisternae of the mammalian Golgi apparatus and to monitor electrophoretic separations.
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PMID:NADP phosphatase as a marker in free-flow electrophoretic separations for cisternae of the Golgi apparatus midregion. 300 95

The effects of an oral administration of carbon tetrachloride on various liver microsomal and supernatant components were studied 1hr. and 2hr. after dosing. The modifications of such early changes resulting from a concomitant administration of promethazine together with the carbon tetrachloride were also investigated. The microsomal components studied were: cytochromes P-450 and b(5); inorganic pyrophosphatase; NADH- and NADPH-cytochrome c reductases; NADH- and NADPH-neotetrazolium reductases; a lipid-peroxidation system associated with the oxidation of NADPH and stimulated by ADP and Fe(2+). NAD- and NADP- DT-diaphorases were measured in the supernatant solution remaining after isolation of liver microsomes, and the distribution of RNA phosphorus between the microsomes and supernatant solution was also determined. Carbon tetrachloride produced a rapid fall in inorganic pyrophosphatase activity, a rather slower decrease in cytochrome P-450 content of the microsomes and small increases in the activities of NADH-cytochrome c reductase and neotetrazolium reductases. The activities of NADPH-cytochrome c reductase, the NADPH-ADP/Fe(2+)-linked lipid-peroxidation system, DT-diaphorases and the content of cytochrome b(5) in the microsomes were unchanged. There was also a loss of RNA phosphorus from the microsomes into the supernatant solution. The RNA phosphorus redistribution, the decrease in inorganic pyrophosphatase and the increases in neotetrazolium reductase activities were at least partially prevented by a concomitant dosing with promethazine. However, the decrease in cytochrome P-450 was not affected by promethazine treatment. These early changes are discussed in terms of the liver necrosis produced by carbon tetrachloride and which is greatly retarded in its onset by the administration of promethazine.
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PMID:The effects of carbon tetrachloride on rat liver microsomes during the first hour of poisoning in vivo, and the modifying actions of promethazine. 576 54

Under study were activities of glycolysis enzymes: LDH, Krebs' cycle--SDH, those of electron transport system--NAD and NADP-diaphorase, and of the hydrolytic enzymes, acid and alkaline phosphatases in the hypothalamus, as were morphofunctional shifts in these enzymes' activities in poisoning with organophosphorus compounds. The experiments were carried out in 72 white male outbred rats weighing 180-200 g, that were administered PHOS antio (an organo-phosphorus compound) in a daily dose of 0.1 LD50 for 30 days. Early dates of poisoning were associated with an essential rise of the redox enzymes and a lowering of the hydrolytic enzymes levels, this being paralleled by morphologic signs of activation of the neurosecretory cells. Later high levels of neurosecretory material in the neurosecretory nuclei and reduced counts of neurosecretory cells were coupled with almost all the enzymes' activities lowering. This permits a conclusion that changed activities of the enzymic systems may be one of the pathogenetic mechanisms and possible causes of neurosecretory cell dysfunction in pesticide poisonings.
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PMID:[The enzymatic activity of the neurosecretory nuclei of the anterior hypothalamus in exposure of the body to organophosphorus compounds]. 801 55

Evidences suggest that the presence of chronic kidney disease (CKD) is associated with cerebrovascular diseases related cognitive decline in dialysis patients. As mitochondrial dysfunction is implicated in neurodegenerative disorders, we hypothesized that changes in brain mitochondria occur due to vascular calcification induced by renal failure and the opening of the mitochondrial potassium channel using nicorandil may prevent its dysfunction. Brain tissues from rats with vascular calcification were studied. Nicorandil (7.5 mg/kg b.wt.) was given either concomitantly or after the induction of calcification. The brain tissues were evaluated for antioxidant capacity, mitochondrial enzymes and oxidative phosphorylation efficiency along with the progression of calcification. The results suggested that renal failure, elevated the calcium, phosphorus product in the brain. The brain cytoplasm and mitochondrial fractions showed an elevated TBARS and a corresponding decline in the antioxidant enzymes, indicating a sev ere oxidative stress. The elevated brain mitochondrial enzymes like NADH dehydrogenase, and succinate dehydrogenase in the disease control groups, reversed to the near control level after nicorandil treatment. We observed that nicorandil was more effective when given after calcification. It reduced the biochemical alterations associated with calcium and phosphorous toxicity in the brain, by preserving mitochondria, the key target for treating neurodegenerative diseases.
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PMID:Nicorandil attenuates neuronal mitochondrial dysfunction and oxidative stress associated with murine model of vascular calcification. 2837 16