Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The effects of bicarbonate on acid production by 4 human strains of Actinomyces viscosus were estimated under anaerobic conditions. The rate of acid production was accelerated by bicarbonate 3-4 times as much as that without bicarbonate. The analyses of intracellular glycolytic intermediates, NAD and NADH revealed a decrease in NADH:NAD ratio and an increase in the level of 3-phosphoglycerate in the cells when bicarbonate was present. Furthermore, when bicarbonate was available, malate dehydrogenase and fumarate reductase in the succinate pathway were expected to function as NADH-oxidizing enzymes in addition to lactate dehydrogenase. These observations indicate the efficient regeneration of NAD in the presence of bicarbonate. Thus, the stimulation of A. viscosus glycolysis by bicarbonate was thought to stem from the activation of glyceraldehyde 3-phosphate dehydrogenase (G3PDH) by the decrease in the level of NADH, because NADH was a strong inhibitor of G3PDH in this microorganism.
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PMID:Stimulatory effect of bicarbonate on the glycolysis of Actinomyces viscosus and its biochemical mechanism. 140 53

Mitochondrial malate dehydrogenase (MDH) was found to be rapidly inactivated by o-phthalaldehyde. MDH-o-phthalaldehyde adduct gives a characteristic absorption maximum at 337 nm. Moreover, this derivative shows fluorescence emission maxima at 405 nm when excited at 337 nm and 280 nm. These results were consistent with isoindole ring formation in which the -SH group of cysteine and epsilon-NH2 group of lysine participate in the reaction. The enzyme was found to be protected against o-phthalaldehyde inactivation by NADH, indicating that the essential residues are present at or near the coenzyme binding site. Stoichiometric results indicate that 4 isoindole derivatives are formed per enzyme molecule upon complete inactivation. However, 90% of the activity loss was accompanied by the formation of 2 moles of isoindole per mole of the enzyme. These approaches give consistent evidence that two cysteines along with two lysines in close proximity are essential for the enzymatic activity.
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PMID:Active site mapping studies of malate dehydrogenase : identification of essential amino acid residues by o-phthalaldehyde. 141 88

The maximal rates (Vmax) of some mitochondrial enzyme activities related to energy transduction (citrate synthase, succinate dehydrogenase, malate dehydrogenase, NADH-cytochrome c reductase, cytochrome oxidase) and amino acid metabolism (glutamate dehydrogenase, glutamate-pyruvate- and glutamate-oxaloacetate- transaminases) were evaluated in non-synaptic ("free") and intrasynaptic "light" and "heavy" mitochondria from hippocampus of Macaca fascicularis (Cynomolgus monkey). The different mitochondrial populations were isolated from the hippocampus of monkeys treated p.o. with dihydroergocryptine at a dose of 12 mg/kg/day before and during the induction of a Parkinson's-like syndrome by MPTP administration (i.v., 0.3 mg/kg/day for 5 days). The MPTP administration modified the activity of some enzymes related to the metabolism of glutamate and the activity of succinate dehydrogenase on selected types of mitochondria. Pharmacological treatment by dihydroergocryptine promoted return to the steady-state levels of most enzymes, demonstrating a protective effect on these biochemical parameters.
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PMID:Mitochondrial factors involved in Parkinson's disease by MPTP toxicity in Macaca fascicularis and drug effect. 146 62

Haemophilus parasuis, grown under conditions of high aeration, was found to lack a tricarboxylic acid cycle but to possess phosphoenolpyruvate carboxylase and a reductive pathway leading to the production of succinate. Such organisms contained approximately equal quantities of b-, c-, and d-type cytochromes and excreted acetate. When the oxygen supply for growth was either reduced or eliminated, the specific activities of phosphoenolpyruvate carboxylase, malate dehydrogenase, fumarase, fumarate reductase, and NADH: fumarate oxidoreductase were increased substantially, and the acid products were succinate, acetate, and formate. Organisms grown under the latter conditions also contained increased quantities of b- and c-type cytochromes, some of which were low-potential cytochromes. These low-potential cytochromes were reduced by NADH and oxidized by fumarate, and hence, appeared to be components of NADH: furmarate oxidoreductase. Our results indicate that in H. parasuis, growing aerobically in medium containing glucose, the sole function of the reductive pathway is to provide intermediates for biosynthetic processes, and oxygen is the preferred electron acceptor. As the supply of oxygen is reduced or eliminated, the reductive pathway becomes more involved in NAD+ recycling and fumarate becomes the acceptor. In effect, irrespective of the oxygen supply, the growth of H. parasuis is absolutely dependent upon the presence of an electron transport system.
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PMID:Effect of oxygen supply during growth on the production of cytochromes, enzymes, and acid end products by Haemophilus parasuis. 146 68

A systematic analysis of the kinetic properties of duck lens epsilon-crystallin with lactate dehydrogenase [LDH, (E.C. 1.1.1.27)] activity was carried out by employing some 19 different alpha-keto acids as substrates for this NADH-dependent LDH-catalyzed reaction. The steady-state Michaelis and catalytic constants (Km, kcat) were determined for a broad range of organic compounds. The results provide important insights regarding the binding and affinity of substrates to active sites of this enzyme crystallin and indicate a great potential for the application of the stable epsilon-crystallin as a catalyst to the synthesis of some important chiral alpha-hydroxyacids in a convenient and efficient way. It is also demonstrated for the first time that in addition to the enzymatic activity of lactate dehydrogenase, duck epsilon-crystallin also possesses the enzymatic activity of malate dehydrogenase.
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PMID:Kinetic analysis of duck epsilon-crystallin with L-lactate dehydrogenase activity: determination of kinetic constants and comparison of substrate specificity. 149 71

To evaluate the effects of acute pancreatitis on the energy metabolism of the liver and on the fragility of hepatic cells and subcellular organelles, we studies (1) the arterial blood ketone body ratio (BKBR) (aceto acetate/beta-hydroxy butyrate), which is in equilibrium with the free NAD+/NADH ratio in liver mitochondria; (2) the hepatic energy charge (EC) = (ATP + 1/2 ADP)/(ATP + ADP + AMP); (3) the cathepsin B leakage from hepatic lysosomes and the malate dehydrogenase leakage from hepatic mitochondria in vitro; and (4) the protective effects of prostaglandin E2 (PGE2) and a new synthetic protease inhibitor ONO 3307 on hepatic injury in acute pancreatitis induced in rats by a supramaximal dose of caerulein. Decreased BKBR and hepatic EC as well as increased hepatic lysosomal and mitochondrial fragility were observed in rats with this type of acute pancreatitis, and both PGE2 and ONO 3307 had a significant protective effect against hepatic injury in these rats, especially ONO 3307. These results suggest that impaired hepatic energy metabolism is closely related to increased hepatic lysosomal and mitochondrial fragility and that some proteases, which are derived from pancreatitis and are susceptible to inhibition by ONO 3307, seem to play an important pathological role in this liver injury induced by pancreatitis. Therefore, it is important to take care of the liver in patients with acute pancreatitis.
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PMID:Impaired hepatic energy metabolism in rat acute pancreatitis: protective effects of prostaglandin E2 and synthetic protease inhibitor ONO 3307. 152 49

Mitochondrial malate dehydrogenase shows a complex regulation pattern in the presence of citrate. Previously published results indicate that this enzyme is activated by citrate in the NAD(+)----NADH direction and inhibited in the opposite direction. Moreover, high concentrations of L-malate or oxaloacetate produce deviations from the Michaelis-Menten behaviour. Results reported in this paper clearly show that citrate both activates and inhibits mitochondrial malate dehydrogenase in the same direction (NAD(+)----NADH), and in the same reaction medium, depending on substrate concentration. This surprising effect has made it necessary to propose a new kinetic mechanism that extends those previously suggested and allows us to explain both the citrate effect (activating or inhibitory) and the effect of high concentrations of L-malate and oxaloacetate.
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PMID:Kinetic studies of the regulation of mitochondrial malate dehydrogenase by citrate. 156 75

Kinetic studies of Morris 7777 hepatoma mitochondrial NAD(P) malic enzyme were consistent with an ordered mechanism where NAD adds to the enzyme before malate and dissociation of NADH from the enzyme is rate-limiting. In addition to its active site, malate apparently also associates with a lower affinity with an activator site. The activator fumarate competes with malate at the activator site and facilitates dissociation of NADH from the enzyme. The ratio of NAD(P) malic enzyme to malate dehydrogenase activity in the hepatoma mitochondrial extract was found to be too low, even in the presence of known inhibitors of malate dehydrogenase, to account for the known ability of NAD(P) malic enzyme to intercept exogenous malate from malate dehydrogenase in intact tumor mitochondria (Moreadith, R.W., and Lehninger, A.L. (1984) J. Biol. Chem. 259, 6215-6221). However, NAD(P) malic enzyme may be able to intercept exogenous malate because according to the present results, it can associate with the pyruvate dehydrogenase complex, which could localize NAD(P) malic enzyme in the vicinity of the inner mitochondrial membrane. The activity levels of some key metabolic enzymes were found to be different in Morris 7777 mitochondria than in liver or mitochondria of other rapidly dividing tumors. These results are discussed in terms of differences among tumors in their ability to utilize malate, glutamate, and citrate as respiratory fuels.
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PMID:Kinetics and regulation of hepatoma mitochondrial NAD(P) malic enzyme. 158 26

We have measured the frequency of the carbon-hydrogen stretching mode of the pro-R and pro-S C4-H bonds of NADH in solution and when bound to pig heart lactate (LDH) or mitochondrial malate (mMDH) dehydrogenases. This is achieved by specifically deuterating the C4 pro-R or pro-S hydrogens of NADH and determining the frequencies of the resulting C4-D stretches by Raman difference spectroscopy. We find that the frequencies of the two C4-D stretching modes for the two bonds are essentially the same for the unliganded coenzyme. On the other hand, the position of the pro-S-[4-2H]NADH stretch shifts upward by about 23-30 cm-1 in its binary complex with either lactate or malate dehydrogenase relative to that observed in solution, while that for the bound pro-R-[4-2H]NADH is relatively unchanged. The fact that the frequency of the pro-R hydrogen is not significantly affected during complex formation suggests that the rate enhancements for reaction of substrate with NADH brought about by both pig heart LDH and mMDH apparently do not involve either stabilization or destabilization of the pro-R hydrogen of NADH in enzyme-coenzyme binary complexes, in agreement with previous chemical studies. That these proteins are able to regulate the frequencies of the two C4-D bonds differentially, and hence the electronic distributions in these bonds, has important implications for the stereochemical reactions catalyzed by the NAD dehydrogenases, and this is discussed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A vibrational analysis of the catalytically important C4-H bonds of NADH bound to lactate or malate dehydrogenase: ground-state effects. 159 30

Gel incubation film, which contained gelatin to prevent the diffusion of enzyme during chemical reaction and phenazine methosulfate to operate as a hydrogen acceptor between NADH and tetrazolium, was used and light microscopy revealed that lactate dehydrogenase was located in the head and tail of the spermatozoa as well as in the midpiece, whereas malate dehydrogenase was confined to the midpiece in spermatozoa of the animals examined. In goat spermatozoa, lactate dehydrogenase was associated mainly with the inner acrosomal membrane in the head, the mitochondrial matrix in the midpiece and with flagellar fibrils in the tail, whereas malate dehydrogenase was present only in the mitochondrial matrix.
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PMID:A new technique for the precise location of lactate and malate dehydrogenases in goat, boar and water buffalo spermatozoa using gel incubation film. 162 37


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