EC:1.1.1.37 - FACTA Search

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Query: EC:1.1.1.37 (malate dehydrogenase)
4,591 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Effects of 1-methyl-4-phenylpyridinium ion (MPP+) on the activities of NAD+- or NADP+-linked dehydrogenases in the TCA cycle were studied using mitochondria prepared from mouse brains. Activities of NAD+- and NADP+-linked isocitrate dehydrogenases, NADH- and NADPH-linked glutamate dehydrogenases, and malate dehydrogenase were little affected by 2 mM of MPP+. However, alpha-ketoglutarate dehydrogenase activity was significantly inhibited by MPP+. Kinetic analysis revealed a competitive type of inhibition. Inhibition of alpha-ketoglutarate dehydrogenase may be one of the important mechanisms of MPP+-induced inhibition of mitochondrial respiration, and of neuronal degeneration.
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PMID:Inhibition of mitochondrial alpha-ketoglutarate dehydrogenase by 1-methyl-4-phenylpyridinium ion. 349 49

Activation and inactivation of NADP-malate dehydrogenase purified from Zea mays leaves were followed in a reconstituted system provided with thioredoxin poised in various redox states with dithiothreitol. The initial rate of activation or inactivation of NADP-malate dehydrogenase was proportional to the concentration of reduced or oxidized thioredoxin, respectively. The rate of inactivation was about 16 times that for activation at pH 7.4. Both activities increased when the pH was increased from 7.4 to 8.0. The redox potentials (E'0, pH 7) for the dithiol-disulfide systems of thioredoxin and NADP-malate dehydrogenase were estimated to be about -0.30 and -0.33 V, respectively. As would be predicted from these values, high proportions of active malate dehydrogenase were developed only in the presence of very high ratios of reduced to oxidized thioredoxin. Similarly, when pyridine nucleotide was included, a high degree of activation of malate dehydrogenase was only observed with high NADPH/NADP ratios. These results confirm predictions based on models developed in earlier studies that the NADPH to NADP ratio as well as the thioredoxin redox state may be critical in determining the level of NADPH-malate dehydrogenase activity in vivo.
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PMID:Regulation of NADP-malate dehydrogenase in C4 plants: effect of varying NADPH to NADP ratios and thioredoxin redox state on enzyme activity in reconstituted systems. 374 Aug 49

NADP-malate dehydrogenase activity, the ratio of NADPH to NADP, and thioredoxin redox state in Zea mays chloroplasts were determined after various treatments. Following transfer from dark to light, NADP-malate dehydrogenase was activated more than 20-fold within 10 min while the proportion of pyridine nucleotide as NADPH increased from about 25 to 90%, and the proportion of thioredoxin in the reduced form increased from 20 to more than 90%, in less than 1 min. After transfer back to the dark, NADPH levels dropped very rapidly to the initial values recorded before illumination, while enzyme activity and reduced thioredoxin levels decreased more slowly. Addition of oxaloacetate or 3-phosphoglycerate to illuminated chloroplasts results in a decrease of about 70% in the activity of NADP-malate dehydrogenase, a 30% decrease in the level of NADPH, and a 25% decrease in the reduced thioredoxin content. Adding dihydroxyacetone phosphate and pyruvate had no effect. These results are considered in relation to the hypothesis that NADP-malate dehydrogenase activity in chloroplasts may be determined by factors regulating the ratio of NADPH to NADP as well as those influencing the redox state of thioredoxin.
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PMID:Regulation of NADP-malate dehydrogenase in C4 plants: relationship among enzyme activity, NADPH to NADP ratios, and thioredoxin redox states in intact maize mesophyll chloroplasts. 374 Aug 50

Malate dehydrogenase from the thermoacidophilic archaebacterium Thermoplasma acidophilum is purified 50-fold to electrophoretic homogeneity. The purified enzyme crystallizes readily. Native malate dehydrogenase shows a relative molecular mass of 144 000. It is a tetramer of identical subunits with a relative molecular mass of 36 600. Malate dehydrogenase from Thermoplasma uses both NADH and NADPH as coenzyme to reduce oxaloacetate. The enzyme shows A-side (pro-R) stereospecificity for both coenzymes. The pH optimum for the reduction of oxaloacetate in the presence of NADH is found to be at pH 8.1. At pH 7.4 the Km value for oxaloacetate is found to be 5.6 microM while for NADH a value of 11.7 microM is found. The homogeneous enzyme shows a turnover number of kcat = 108 s-1.
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PMID:Purification and properties of malate dehydrogenase from the thermoacidophilic archaebacterium Thermoplasma acidophilum. 374 24

Excessive fat accumulation in the liver is a common metabolic disorder seen in humans and animals. Fatty liver was induced in the rat by feeding the animals with a sucrose rich diet containing 1% orotic acid for 2-3 weeks. In the sera from fatty liver rats there were significant changes in the level of alanine aminotransferase (+ 68.7%), malic dehydrogenase (+ 77.8%), gamma-glutamyl transpeptidase (- 53.4%) and total lipids (+ 26.6%). There were small to no changes in the levels of aspartate aminotransferase, glucose-6-phosphate dehydrogenase, lactic dehydrogenase, aldolase, malic enzyme, 6-phosphogluconic acid dehydrogenase, alkaline phosphatase and albumin. In fatty liver, significant differences were seen in the levels of glucose 6-phosphate dehydrogenase (+ 235%), malic enzyme (+ 170%), gamma-glutamyl transpeptidase (+ 113%), 6-phosphogluconate dehydrogenase (+ 63%), aspartate aminotransferase (+ 35.6%), malic dehydrogenase (+ 38%), lactic dehydrogenase (+ 37%), and alanine aminotransferase (- 23%). Comparison of the non-fatty part with the fatty part of the fatty liver showed larger changes in the non-fatty part of the liver, suggesting that during the fattening process, there is an induction of enzymes in the liver reaching a peak prior to lipid accumulation, declining thereafter during liver fattening. The increase in NADPH-generating lipogenic enzymes suggests that accumulated fat in the liver is at least partially from de-novo increased synthesis in the liver.
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PMID:Biochemical changes in liver and blood during liver fattening in rats. 377 7

The effects of thallium chloride (TlCl3.4H2O) on hepatocyte structure and function were studied in male rats at 16 hr following treatment by ip injection with doses of 0, 50, 100, and 200 mg/kg. Ultrastructural examination of hepatocytes from thallium-treated rats showed a dose-related loss of ribosomes from the endoplasmic reticulum and proliferation of the rough endoplasmic reticulum segment. Generalized mitochondrial swelling and increased numbers of electron-dense autophagic lysosomes were also observed. Morphometric analysis of hepatocytes from thallium-treated rats disclosed a 3-fold increase in the volume density of the lysosomal compartment and a 1.3-fold increase in the volume density of mitochondrial. Surface density measurements of mitochondrial and endoplasmic reticulum membranes showed dose-related increases in the surface density of both inner and outer mitochondrial membranes as well as of the rough endoplasmic reticulum. These structural changes were associated with pronounced increases in the specific activities of the mitochondrial membrane-associated enzymes monoamine oxidase and ferrochelatase to 145 and 144% of control values, respectively, and a 42% decrease in the activity of aminolevulinic acid (ALA) synthetase. Similarly, structural alteration of the endoplasmic reticulum in thallium-treated rats was associated with concomitant impairment of the microsomal enzymes NADPH cytochrome c (P-450) reductase, aniline hydroxylase, and aminopyrene demethylase to a maximum of 49, 43, and 77% of activities seen in untreated controls, respectively. In contrast, the non-membrane-bound enzymes malate dehydrogenase, ALA dehydratase, and uroporphyrinogen I synthetase were unaltered in vivo following thallium treatment at any doses. These results indicate that thallium-induced alteration of hepatic biochemical processes may arise from physical disruption of the membranal integrity of subcellular organelles with which those processes are functionally associated. These findings are consistent with those from previous studies in demonstrating a positive quantitative correlation between metal-induced subcellular organelle membrane structural injury and impairment of associated biological functions in vivo.
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PMID:Alteration of hepatocellular structure and function by thallium chloride: ultrastructural, morphometric, and biochemical studies. 396 12

Monospecific (affinity-purified) anti-(yeast glucose-6-phosphate dehydrogenase) IgG inhibits three different NADPH-requiring enzymes, chicken liver dihydrofolate reductase, pigeon liver fatty acid synthetase and chicken liver malic enzyme. The inhibition of all three enzymes was approx. 50% in a 2h incubation with 100 micrograms of IgG. Similarly, with several different NADH-requiring enzymes, an immunocrossreactivity was observed. Monospecific anti-(rabbit muscle glyceraldehyde-3-phosphate dehydrogenase) IgG inhibited yeast alcohol dehydrogenase and pig heart malate dehydrogenase by 39% and 55% respectively. The cross-reactivity observed was tested by affinity chromatography. Immunoaffinity columns made with each monospecific IgG were able to bind each of the enzymes it immunotitrated. Enzymes were eluted with a nondenaturing solvent with little loss of activity. The immunoaffinity column with monospecific anti-(glucose-6-phosphate dehydrogenase) IgG as the bound ligand was also used to purify partially (over 150-fold) both isocitrate dehydrogenase and dihydrofolate reductase from crude rat liver homogenate.
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PMID:Purification of nucleotide-requiring enzymes by immunoaffinity chromatography. 398 38

Fetuses were decapitated in one uterine horn in each of 14 sows at 45 d of gestation. Control (C) and decapitated (D) fetuses were removed by Caesarean section from three sows at 65 d of gestation (total of 10 D and 10 C fetuses), two sows at 85 d (six D and six C fetuses) and nine sows at 110 d (nine C and nine D fetuses) of gestation (Exp. 1). In Exp. 2, four to six fetuses were removed from each of two Ossabaw (O) gilts and three crossbred (C, Landrace X Yorkshire) gilts at 70 d of gestation, from three C and O gilts at 90 d of gestation and from three C and two O gilts at 110 d of gestation. In Exp. 1, one semitendinosis muscle was removed for histochemistry, whereas the contralateral muscle was removed and weighed. A medial portion of biceps femoris muscle was removed and used for histochemistry in Exp. 2. In both experiments, transverse sections (cryostat) of muscle were stained for lipid, glycogen (PAS) and the following enzymes: acid ATPase, NADH-TR, NADPH-TR, malate dehydrogenase (NAD- and NADP-dependent reactions; MDH), succinate dehydrogenase (SDH), alpha-glycerol phosphate dehydrogenase (with and without NAD; alpha-GPDH), isocitrate dehydrogenase (NAD dependent; ICDH), esterase, lipoprotein lipase and lipase. In Exp. 1, body and muscle weights of the two groups were not significantly different (P greater than .05) at 65 d of gestation, whereas D fetuses were smaller and had lighter weight muscles (P less than .05) at 85 d of gestation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enzyme histochemical studies in an ontogeny study of muscle development in Ossabaw and decapitated fetuses: cellular reactions. 401 46

The subcellular location and some properties of the rat kidney 25-hydroxyvitamin D3-1 alpha-hydroxylase are described. Enzyme activity can be measured as previously discussed (Tanaka, Y., and DeLuca, H.F. (1981) Proc. Natl. Acad. Sci. U. S. A. 78, 196-199) using saturating substrate (25-hydroxyvitamin D3) concentrations. The reaction is linear with time for up to 30 min at a substrate concentration of 80 microM and 9-11 mg/ml mitochondrial protein. The enzyme, located in the mitochondria, requires molecular oxygen and a source of NADPH. Succinate supplies NADPH for 1 alpha-hydroxylation through reversal of electron transport and transhydrogenation as shown by inhibition with antimycin A and dinitrophenol. Malate supplies NADPH for the reaction via the mitochondrial malic enzyme or malate dehydrogenase and transhydrogenase as indicated by the lack of inhibition by antimycin A but inhibition with dinitrophenol. Metyrapone and carbon monoxide both inhibit 1 alpha-hydroxylation indicating the involvement of cytochrome P-450. Diphenyl-p-phenylenediamine, a lipid peroxidase inhibitor, has no effect on 1 alpha-hydroxylation.
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PMID:Subcellular location and properties of rat renal 25-hydroxyvitamin D3-1 alpha-hydroxylase. 404 67

The early primary biochemical response of lung to NO2 was studied separately from the later secondary responses of inflammation and proliferation by measuring several biochemical parameters in lungs of rats immediately following a 4-hr exposure to nitrogen dioxide (NO2) at concentrations of 10, 20, 30, and 40 ppm. Cell-free lavage fluid contained elevated amounts of lactate dehydrogenase (LDH), malate dehydrogenase (MDH), isocitrate dehydrogenase (IDH), glucose-6-phosphate dehydrogenase (GDH), acid phosphatase (AP), and aryl sulfatase (AS) after 30 or 40 ppm NO2. Total protein and sialic acid were increased in cell-free lavage after 20, 30, or 40 ppm NO2. The amounts of protein, sialic acid, and acid phosphatase recovered by airway lavage were equal to the amounts found in 0.7 ml of plasma, consistent with transudation of this volume of plasma into airways as a source of these parameters. The plasma activity of the other parameters measured was too low to account for their increase in lavage fluid by plasma leakage into airways. Decrease in the number and enzyme content of lavagable cells indicated damage to free cells in the airways. The amount of the decrease in enzyme content of the lavagable cell fraction was similar to the increase in the cell-free lavage for all of the measured enzymes except acid phosphatase, suggesting the release of these enzymes into airways as a result of damage to free cells. However, the LDH isoenzyme profile in cell-free lavage after exposure is inconsistent with free cells as the source of this enzyme. No changes were observed in the whole-lung homogenate content of protein, DNA, lipid, LDH, MDH, IDH, GDH, AP, AS, glutathione reductase, NADPH cytochrome c, or succinate cytochrome c reductase immediately after NO2 exposure. This study indicates that initial acute damage to lung by NO2 results in translocation of enzymes, proteins, and sialic acid into airways. Plasma is a likely source of translocated protein, sialic acid, and acid phosphatase. The sources of the other enzyme activities remain to be identified, with lung parenchyma and free cells as likely sources.
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PMID:Biochemical assessment of acute nitrogen dioxide toxicity in rat lung. 404 14

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