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: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thermal acclimation of rainbow trout (Salmo gairdneri) taken from 20 degrees C to 7 degrees C resulted in adaptation of mitochondrial function, as evidenced by increases in the specific activities of NADH- and succinate-cytochrome c reductase of 1.93- and 2.7-fold respectively. Mitochondria from both gill and liver obeyed the Boyle-van't Hoff relationship in the range from 400 to 60 mosM. Thermal acclimation had no effect on the osmotic properties of liver mitochondria, whereas gill mitochondria from cold-acclimated trout were more sensitive to osmotic swelling than mitochondria from warm-acclimated individuals. The non-electrolyte permeability of liver mitochondria was assessed by optically monitoring mitochondrial swelling rates in isosmotic solutions of urea, glycerol, mannitol and glucose. Two parameters of mitochondrial swelling were determined: (a) initial swelling rates, d(1/A)dt, and (b) swelling constants, ks, derived from the time required to swell a fixed volume. Regardless of the assay temperature or the permeant employed, liver mitochondria from cold-acclimated trout exhibited greater initial swelling rates than mitochondria from warm-acclimated trout, indicating properties of temperature-compensated permeability. The apparent ranking of nonelectrolyte permeabilities was urea greater than glycerol greater than mannitol greater than glucose. ks values for urea and glycerol from cold-acclimated trout were greater than values typical of warm-acclimated populations; however ks values for glucose and mannitol were not influenced by thermal acclimation. Regardless of the permeant considered, activation energies for ks values were 3- to 5-fold greater than those for initial swelling rates. The time course of mitochondrial swelling consists of two components, an initial rapid swelling phase characterized by a half-life of 3-12 seconds, and a slower swelling phase characterized by a half life of 1-6 minutes. Initial swelling rates, which approximate the rapid swelling component, are considered to be the least ambiguous index of permeability, whereas ks values are more complex and strongly influenced by the slower swelling component.
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PMID:The effects of temperature and thermal acclimation upon the osmotic properties and nonelectrolyte permeability of liver and gill mitochondria from rainbow trout (Salmo gairdneri). 81 88

The effects of intra-articular injections of non-radioactive and tritium-labelled glyceryl trioleate into the mandibular and knee joints of adult rabbits have been investigated using autoradiographic and histochemical techniques and electron microscopy. As observed at the fourth day after operation, fat droplets accumulate in cells of the fibrous, intermediate and cartilaginous layers of mandibular condylar, and in the superficial and upper middle (rather than the deeper) zones of femoral condylar cartilage. Autoradiography of frozen sections shows that numerous silver grains are located over these fat-laden cells following injection of trioleate which has been labelled in the fatty acid moiety of the molecule. In the knee joint the number of grains is directly related to the amount of lipid in the cell. Following injection of glyceryl-labelled trioleate no such result is obtained; it seems doubtful whether or not there is any uptake of this label. However, synovial membrane from the knee joint appears to take up both kinds of trioleate. Results of histochemical methods of NADH diaphorase, lactic dehydrogenase, acid phosphatase and beta-glucosaminidase are consistent with ultrastructural evidence of degeneration in some chondrocytes and of loss of ground substance from the matrix. A raised level of alpha-glycerophosphate dehydrogenase activity is probably associated with synthesis of endogenous glycerol for re-esterification of absorbed fatty acids, and enhanced activity of UDPglucose dehydrogenase with the chondrocytic reaction to matrix depletion. Apart from the increase in fat content, ultrastructural features in injected knee joints include flattening of cell processes against the chondrocyte surface and more abundant intracytoplasmic filaments. Injected mandibular joints show little evidence of these changes although the number of cells in the cartilage appears to be greatly reduced. No extracellular fat droplets occur in femoral cartilage, but material similar in electron density to intracellular fat is observed at the external aspect of some mandibular chondrocytes. The findings indicate that the fatty acid portion of triglyceride injected intra-articularly is taken up by the chondrocytes and retained until at least the fourth day after injection. It is suggested that prior lipolysis takes place either in the synovial cavity (or membrane) or at the chondrocyte surface, but it is uncertain how or in what form fat traverses the matrix. Lipoarthrosis appears to produce changes in the chondrocytes which are thought to be pathological; a number of cell deaths occur. The possibility that gross degeneration of the articular cartilage may ensue is subject to further investigation.
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PMID:Changes in articular cartilage following intraarticular injection of tritiated glyceryl trioleate. 97 82

An Escherichia coli mutant (tolI) previously shown to be tolerant to colicins Ia and Ib is defective in several functions of the bacterial cytoplasmic membrane. When compared with its parental strain, X36, whole cells of tolI show reduced rates of respiration with succinate, malate, or lactate as the substrate but near-normal rates with glucose or glycerol. Cell membrane preparations prepared from tolI cells exhibit reduced succinate and D-lactate oxidase activity but elevated levels of reduced-form nicotinamide adenine dinucleotide (NADH) oxidase. tolI cells have reduced levels of succinate and D-lactate dehydrogenase but normal levels of NADH dehydrogenase. Glycerol-grown tolI cells and membrane vesicles prepared from such cells are defective in the active transport of several amino acids and thiomethyl-beta-D-galactoside; however, they accumulate higher levels of alpha-methylglucoside when compared with X36 whole cells or vesicles. Although tolI cells adsorb less colicin Ia at high colicin concentrations than do X36 cells, it is shown that the adsorption of an Ia molecule to tolI cells has a lower probability of eliciting cell death than does Ia adsorption to strain X36 cells. It is concluded that a single mutation can lead to an alteration in several aspects of cytoplasmic membrane function and colicin I sensitivity.
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PMID:Alterations in membrane function in an Escherichia coli mutant tolerant to colicins Ia and Ib. 110 88

Mitochondria used in the present study were isolated from skeletal muscle of normal and thyroidectomized rats. The preparations were controlled by electron microscopy. It was not possible to find any morphological change induced by thyroidectomy, nevertheless, some difference appeared in the cytochrome contents which were slightly decreased. Oxygen consumption rates of thyroidectomized rat mitochondria were decreased when the particles were maintained in states 3 and 4 in the presence of various substrates, but the P/O ratios were not modified. The activities of mitochondrial enzymes were in general slightly affected by thyroidectomy except for glycerol-1-phosphate cytochrome c reductase and NADH rotenone sensitive cytochrome c reductase which were decreased and for glutamate dehydrogenase activity which was increased. The tRNA nucleotidyltransferase activity found in the mitochondrial matrix was not influenced by the absence of thyroid secretion. Normal rat muscle mitochondria incorporate 14C-leucine with an artificial ATP-generating system or with a respiratory substrate. The amino acid incorporation was decreased by thyroidectomy. Muscle mitochondria analyzed by polyacrylamide gel electrophoresis contained more than 30 protein components with MW ranging from 10.000 to 135.000. Thyroidectomy lowered the amount of a fraction of about 54.000 MW. It is not impossible that all the data observed in the absence of thyroid secretion are in relation with changes induced in the mitochondrial genome as previously shown in mitochondria isolated from liver or thyroidectomized rats.
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PMID:[Effects of thyroidectomy of the rat on the structure and functions of skeletal muscle mitochondria]. 120 23

We have investigated the role of the Coenzyme Q pool in glycerol-3-phosphate oxidation in hamster brown adipose tissue mitochondria. Antimycin A and myxothiazol inhibit glycerol-3-phosphate cytochrome c oxidoreductase in a sigmoidal fashion, indicating that CoQ behaves as a homogeneous pool between glycerol-3-phosphate dehydrogenase and complex III. The inhibition of ubiquinol cytochrome c reductase is linear at low concentrations of both inhibitors, indicating that sigmoidicity of antimycin A and myxothiazol inhibition is not a direct property of antimycin A and myxothiazol binding. Glycerol-3-phosphate cytochrome c oxidoreductase is strongly stimulated by added CoQ3, indicating that endogenous CoQ is not saturating. Application of the pool equation for nonsaturating ubiquinone allows calculation of the Km for endogenous CoQ of glycerol-3-phosphate dehydrogenase of 3.14 mM. The results of this investigations reveal that CoQ behaves as a homogeneous pool between glycerol-3-phosphate dehydrogenase and complex III in brown adipose tissue mitochondria; moreover, its concentration is far below saturation for maximal electron transfer activity in comparison with other branches of the respiratory chain connected with the CoQ pool. HPLC analysis revealed a lower amount of CoQ in brown adipose mitochondria (0.752 nmol/mg protein) in comparison with mitochondria from other tissues and the presence of both CoQ9 and CoQ10.
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PMID:Coenzyme Q-pool function in glycerol-3-phosphate oxidation in hamster brown adipose tissue mitochondria. 132 18

Neutrophil myeloperoxidase, hydrogen peroxide, and chloride constitute a potent antimicrobial system with multiple effects on microbial cytoplasmic membranes. Among these is inhibition of succinate-dependent respiration mediated, principally, through inactivation of succinate dehydrogenase. Succinate-dependent respiration is inhibited at rates that correlate with loss of microbial viability, suggesting that loss of respiration might contribute to the microbicidal event. Because respiration in Escherichia coli can be mediated by dehydrogenases other than succinate dehydrogenase, the effects of the myeloperoxidase system on other membrane dehydrogenases were evaluated by histochemical activity stains of electrophoretically separated membrane proteins. Two bands of succinate dehydrogenase activity proved the most susceptible to inactivation with complete loss of staining activity within 20 min, under the conditions employed. A group with intermediate susceptibility, consisting of lactate, malate, glycerol-3-phosphate, and dihydroorotate dehydrogenases as well as three bands of glucose-6-phosphate dehydrogenase, was almost completely inactivated within 30 min. The relatively resistant group, including the dehydrogenases for glutamate, NADH, and NADPH and the remaining bands of glucose-6-phosphate dehydrogenase, retained substantial amounts of diaphorase activity for up to 60 min of incubation with the myeloperoxidase system. The differential effects of myeloperoxidase on dehydrogenase inactivation could not be correlated with published enzyme contents of flavin or iron-sulfur centers, potential targets of myeloperoxidase-derived oxidants. Despite the relative resistance of NADH dehydrogenase/diaphorase activity to myeloperoxidase-mediated inactivation, electron transport particles prepared from E. coli incubated for 20 min with the myeloperoxidase system lost 55% of their NADH oxidase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential inactivation of Escherichia coli membrane dehydrogenases by a myeloperoxidase-mediated antimicrobial system. 169 36

Previous studies have shown that vertebrate rod outer segments (ROS) have a light activated phospholipase C which hydrolyzes phosphatidylinositol-4,5-bisphosphonate (PIP2). Three different experimental approaches have been used to test the hypothesis that the phosphatidylinositol (PI) biosynthetic cycle is present in ROS and that PIP2 can be regenerated from DG independent of rod inner segments. In the first study, enzyme activities of the PI cycle were assayed simultaneously in the presence of CTP, myo-inositol and [gamma-32P]ATP using endogenous lipids as substrates. Under these conditions, broken (leaky) ROS prepared by continuous sucrose gradient centrifugation showed PI, PIP and DG kinase activities similar to those found in intact ROS and non-ROS membranes, whereas PI synthetase activity was much lower in the leaky ROS than in the other two fractions. The relative distribution of PI synthetase specific activity in the three membrane preparations was similar to that of the microsomal enzyme marker cytochrome c reductase. ROS prepared by discontinuous sucrose gradient centrifugation showed only 2-3% of whole homogenate PI synthetase or phosphatidyl: cytidyl transferase activities, and the distribution of activities was the same as for microsomal and mitochondrial marker enzymes. In the second study, whole retinas were incubated with myo-[2-3H]inositol or [2-3H]glycerol in vitro, and the time course of incorporation of radioactivity into PI and other phospholipids was determined for ROS and three other retinal fractions. Over a 10-hr period, the rate of incorporation of myo-[2-3H]inositol or [2-3H]glycerol into PI in ROS was lowest among the various retinal fractions. In the third study, chemical analysis of the molecular species composition of PI, DG and phosphatidic acid (PA) from ROS shows that PA is substantially different from PI and DG, the latter two being quite similar. These results are consistent with a precursor-product relationship between PI and DG, but not with the conversion of DG to PA or of PA to PI. Taken together, these three studies indicate that ROS do not have PI synthetase or phosphatidyl: cytidyl transferase activities, but do have DG, PI and PIP kinase activities. Thus, the PI in ROS lost through rapid turnover must be replaced with molecules derived from de novo synthesis in the inner segment of the photoreceptor cell.
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PMID:Phosphoinositide metabolism in frog rod outer segments. 216 31

We have characterized the activities of the cytochrome bc1 complex in mitochondrial membranes from a yeast strain in which we deleted the nuclear gene (QCR6, COR3) which codes for the highly acidic subunit 6 of the bc1 complex. The chromosomal copy of QCR6 was replaced with a plasmid derived copy of QCR6, in which the entire coding region of QCR6 was replaced with the yeast LEU2 gene. The resulting deletion strain, MES8, contained no detectable mRNA for QCR6, and the cytochrome bc1 complex purified from the deletion strain lacked subunit 6. The deletion strain respired and grew on nonfermentable carbon sources such as ethanol and glycerol. Ubiquinol-cytochrome c reductase activity of mitochondria from the deletion strain was decreased 50% under conditions where the activity is zero order with respect to cytochrome c, and there was a similar decrease in the first-order rate constant for cytochrome c reduction. The loss of bc1 complex activities, observed at physiological ionic strengths, was reversible. Both the zero order rate and the first-order rate constant for cytochrome c reduction could be recovered to those of the parental strain by measuring these activities in mitochondrial membranes under conditions of low ionic strength. The zero order rate and first-order rate constant for cytochrome c reduction in membranes from the parent, wild-type yeast showed essentially no change coincident with this change in ionic strength. The 50% drop in both turnover number and first-order rate constant of ubiquinol-cytochrome c reductase activity indicates that half of the cytochrome bc1 complexes are inactive in the deletion strain at physiological ionic strengths. Inhibition by myxothiazol of cytochrome c reductase activity of mitochondrial membranes from the deletion strain showed an ionic strength-dependent lag in the titration curve that extended to the point where half of the inhibitor sites are filled. This lag was not observed with membranes from the wild-type, parent strain. This response to the inhibitor is consistent with half of the cytochrome bc1 complexes being inactive in mitochondria from the deletion strain at physiological ionic strength, but with both active and inactive complexes still able to bind inhibitor. The reversible, half-of-the-sites reactivity indicates that the bc1 complex must be dimeric in situ, in agreement with previous findings that the complexes isolated from fungal (Leonard, K., Wingfield, P., Arad, T., and Weiss, H. (1981) J. Mol. Biol. 149, 259-274) and mammalian (Nalecz, M. J., Bolli, R., and Azzi, A. (1985) Arch. Biochem. Biophys. 236, 619-628) mitochondria are structural dimers.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Subunit 6 regulates half-of-the-sites reactivity of the dimeric cytochrome bc1 complex in Saccharomyces cerevisiae. 217 Mar 63

A nuclear gene (QCR9) encoding the 7.3-kDa subunit 9 of the mitochondrial cytochrome bc1 complex from Saccharomyces cerevisiae has been isolated from a yeast genomic library by hybridization with a degenerate oligonucleotide corresponding to nine amino acids proximal to the N terminus of purified subunit 9. QCR9 includes a 195-base pair open reading frame capable of encoding a protein of 66 amino acids and having a predicted molecular weight of 7471. The N-terminal methionine of subunit 9 is removed posttranslationally because the N-terminal sequence of the purified protein begins with serine 2. The ATG triplet corresponding to the N-terminal methionine is separated from the open reading frame by an intron. The intron is 213 base pairs long and contains previously reported 5' donor, 3' acceptor, and TACTAAC sequences necessary for splicing. The splice junctions, as well as the 5' end of the message, were confirmed by isolation and sequencing of a cDNA copy of QCR9. In addition, the intron contains a nucleotide sequence in which 15 out of 18 nucleotides are identical with a sequence in the intron of COX4, the nuclear gene encoding cytochrome c oxidase subunit 4. The deduced amino acid sequence of the yeast subunit 9 is 39% identical with that of a protein of similar molecular weight from beef heart cytochrome bc1 complex. If conservative substitutions are allowed for, the two proteins are 56% similar. The predicted secondary structure of the 7.3-kDa protein revealed a single possible transmembrane helix, in which the amino acids conserved between beef heart and yeast are asymmetrically arranged along one face of the helix, implying that this domain of the protein is involved in a conserved interaction with another hydrophobic protein of the cytochrome bc1 complex. Two yeast strains, JDP1 and JDP2, were constructed in which QCR9 was deleted. Both strains grew very poorly, or not at all, on nonfermentable carbon sources and exhibited, at most, only 5% of wild-type ubiquinol-cytochrome c oxidoreductase activity. Optical spectra of mitochondrial membranes from the deletion strains revealed slightly reduced levels of cytochrome b. When JDP1 and JDP2 were complemented with a plasmid carrying QCR9, the resulting yeast grew normally on ethanol/glycerol and exhibited normal cytochrome c reductase activities and optical spectra. These results indicate that QCR9 encodes a 7.3-kDa subunit of the bc1 complex that is required for formation of a fully functional complex.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Isolation and characterization of QCR9, a nuclear gene encoding the 7.3-kDa subunit 9 of the Saccharomyces cerevisiae ubiquinol-cytochrome c oxidoreductase complex. An intron-containing gene with a conserved sequence occurring in the intron of COX4. 217 27

Dietary iron deficiency in rats results in increased blood glucose turnover and recycling. We measured the rates of glucose production in isolated hepatocytes from iron-sufficient (Fe+) and iron-deficient (Fe-) rats to assess the intrinsic capacity of the Fe- liver to carry out gluconeogenesis. Low-iron and control diets were given to 21-day-old female rats. After 4-5 wk, hemoglobin concentrations averaged 4.1 g/dl in the Fe- and 14.3 g/dl in the Fe+ animals. In the hepatocytes from Fe- rats, there was a 35% decrease in the rate of glucose production from 1 mM pyruvate + 10 mM lactate, a 48% decrease from 0.1 mM pyruvate + 1 mM lactate, a 39% decrease from 1 mM alanine, and a 48% decrease from 1 mM glycerol. The addition of 5 microM norepinephrine or 0.5 microM glucagon to the incubation media produced stimulatory effects on hepatocytes from both Fe- and Fe+ rats, resulting in the maintenance of an average difference of 38% in the rates of gluconeogenesis between the two groups. Studies on isolated liver mitochondria and cytosol revealed alpha-glycerophosphate-cytochrome c reductase and phospho(enol)pyruvate carboxykinase activities to be decreased by 27% in Fe- rats. We conclude that because severe dietary iron deficiency decreases gluconeogenesis in isolated rat hepatocytes, the increased gluconeogenesis demonstrated by Fe- rats in vivo is attributable to increased availability of gluconeogenic substrates and upregulation of the pathway.
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PMID:Iron deficiency decreases gluconeogenesis in isolated rat hepatocytes. 260 20


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