EC:1.1.1.27 - FACTA Search

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Query: EC:1.1.1.27 (lactate dehydrogenase)
29,211 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rabbit muscle lactate dehydrogenase was subjected to frontal affinity chromatography on Sepharose-oxamate in the presence of various concentrations of NADH and sodium phosphate buffer (0.05 M, pH 6.8) containing 0.5 M-NaCl. Quantitative interpretation of the results yields an intrinsic association constant of 9.0 x 10 (4)M-1 for the interaction of enzyme with NADH at 5 degrees C, a value that is confirmed by equilibrium-binding measurements. In a second series of experiments, zonal affinity chromatography of a mouse tissue extract under the same conditions was used to evaluate assoication constants of the order 2 x 10(5)M-1, 3 x 10(5)M-1, 4 x 10(5)M-1, 7 x 10(5)M-1 and 2 x 10(6)M-1 for the interaction of NADH with the M4, M3H, M2H2, MH3 and H4 isoenzymes respectively of lactate dehydrogenase.
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PMID:Evaluation of equilibrium constants for the interaction of lactate dehydrogenase isoenzymes with reduced nicotinamide-adenine dinucleotide by affinity chromatography. 17 84

It is determined that ortho- and n-nitrophenol introduced into the stomach (0.80 and 0.11 g/kg, respectively) inhibit the activity of cytochrome oxydase (by 21% at an average), cause an increase in the content of NADH (by 35 and 27%) and a decrease in ATP (by 38 and 36%, respectively), split the oxidation and phosphorylation processes in the rat liver tissue. The content of NAD+, AMP and ADP, lactate, the activity of K+, Na+-ATPase and lactate dehydrogenase do not change.
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PMID:[Peculiarities of disturbances in oxidation and phosphorylation processes in rat liver under the effect of mononitrophenols]. 17 56

Some information about the lactate dehydrogenase NAD binding site has been obtained by working with coenzymes analogs of incomplete molecules. 5'AMP, 5'-ADP, ATP, 5'-c-AMP and 3'(2)-AMP inhibit chicken liver LDH activity competitively with NADH. 5"-AMP and 5'-ADP show a stronger inhibition power than ATP, suggesting that the presence of one or two phosphate groups at the 5' position of adenosine, is essential for the binding of the coenzyme analogs at the enzyme binding site. Ribose and ribose-5'-P do not appear to inhibit the LDH activity, proving that purine base lacking mononucleotides do not bind to the enzyme. 5"-ADPG inhibits LDH activity in the exactly as 5'-ADP, showing that ribose moiety may be replaced by glucose, without considerable effects on the coenzyme analog binding. 2'-desoxidenosin-5'-phosphate proves to be a poorer inhibitor of the LDH activity than 5'-AMP, indicating that an interaction between the--OH groups and the amino-acids of the LDH active center takes place. Nicotinamide does not produce any inhibition effect, while NMN and CMP induce a much weaker inhibition than the adenine analogues, thus indicating a lesser binding capacity to the enzyme. Therefore, the LDH binding site seems to show some definite specificity towards the adenina groups of the coenzyme.
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PMID:[Binding to chicken liver lactatedehydrogenase (author's transl)]. 18 May 71

The thermodynamics of the reaction catalyzed by pig heart muscle lactate dehydrogenase (LDH; EC1.1.1,27) have been studied in 0,2 M potassium phosphate buffer, pH 7, over the temperature range of 10 to 35 degrees C by using oxamate and oxalate to simulate the corresponding reactions of the substrates pyruvate and lactate, respectively. The various complexes formed are characterized by Gibbs free energies, enthalpies, and entropies. The Gibbs free energies were determined by equilibrium dialysis investigations, fluorescence titrations, and ultraviolet difference spectroscopy, while the reaction enthalpies stem from direct calorimetric measurements, Formulas are given for both the temperature dependence of the equilibrium constants and the variation with temperature of the enthalpies involved in the four reactions between LDH and NADH or NAD, LDH-NADH and oxamate, and LDH-NAD and oxalate. All reactions show a marked negative temperature coefficient, deltacp, of the binding enthalpies indicating partial refolding to be associated with binary and ternary complex formation. This interpretation appears very probable in view of recent x-ray crystallographic studies on lactate dehydrogenase from dogfish, which demonstrate a volume decrease to occur on binding of oxamate to the LDH-NADH complex. The validity of the thermodynamic parameters, as derived with substrate analogues, for the actual catalytic reaction, gains strong support from the agreement between the sum of the heats involved in the four intermediary reactions reported in this study and direct determinations of the overall enthalpy associated with the catalytic process published in the literature.
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PMID:Thermodynamic studies of binary and ternary complexes of pig heart lactate dehydrogenase. 18 2

The renaturation process of different lactate dehydrogenase isozymes (L-lactate:NAD+ oxidoreductase, EC 1.1.1.27) from their unfolded subunits was investigated using a number of techniques. (a) kinetics of activity regain, (b) the kinetics of fluorescence change of fluoresecence change of the protein tryptophans, (c) kinetics of regain of the fluorescence properties of a covalently attached fluorescence probe (fluorescein) and (d) the kinetics of assembly, by following the intermediate oligomeric species appearing in the assembly pathway from monomers to tetramers. The results indicate that the unfolded polypeptide is converted to the active oligomeric species by the following scheme: Denatured subunit I leads to partially refolded subunit II leads to folded subunit III leads to dimer IV leads to tetramer. Step I and step II are first-order where step II is rate limiting. The ligands NAD+ and NADH accelerate step II, thus converting step I to the rate-limiting process. The fact that partially folded lactate dehydrogenase subunits are capable of co-enzyme binding may indicate the possible role of these ligands in the assembly of lactate dehydrogenase in vivo. Steps III and IV were found to be fast. The intermediate formation of an enzyme dimer which then dimerizes to the tetrameric species is found to be the major assembly pathway. Only a small portion of the lactate dehydrogenase tetramer is formed through the intermediate formation of a trimer intermediate.
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PMID:The refolding of lactate dehydrogenase subunits and their assembly to the functional tetramer. 18 77

Results of a method of rapid purification of lactate dehydrogenase X (LDH-X) from mouse testes by 2 stepts of affinity chromatography on oxamate-sepharose at different sodium chloride (NaCl) and NADH concentrations are discussed. At concentrations of 200 mcM NADH and .5 M NaCl, LDH-X is separated from other LDH isoenzymes. The binding of LDH-X to the column is then carried out on the unbound fractions containing LDH-X and contaminating proteins after a 1:5 dilution. The resulting NADH and NaCl concentrations allow the binding of LDH-X. The specific activity of purified mouse LDH-X from testes was 120 IU/mg. The main advantage of this technique is the rapidity and ease of purification.
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PMID:Rapid purification of lactate dehydrogenase X from mouse testes by two steps of affinity chromatography on oxamate-sepharose. 18 29

Methods are described for detection of lactate dehydrogenase (LDH) inhibitors in preparations of reduced nicotinamide adenine dinucleotide. They are (a) comparison of values by kinetic methods with those measured for highly purified NADH and (b) examination of Lineweaver-Burk plots. Chromatographic inhomogeneities are correlated with deviant values for the kinetic constants of NADH preparations. Lineweaver-Burk plots that curve upward at the high concentrations or have a larger or smaller than normal slope may indicate the presence of inhibitor. As determined in bicarbonate buffer (0.11 mol/liter, pH 7.9) by use of 0.600 mmol/liter pyruvate and NADH freshly separated from impurities by chromatography on diethyl-aminoethyl-cellulose, the Km (apparent) of NADH at 25 degrees C has the value 8.11 +/- 0.71 mumol/liter (SD, n = 28) with LDH-1 (pig heart, 2.48 +/- 0.05 U per milliliter of reaction mixture, or 41.3 +/- 0.8 nmol/liter per second). Under similar conditions, the Km (apparent) of NADH has the value of 8.57 +/- 1.58 mol/liter (SD, n = 21) with LDH-5 (pig muscle, 1.77 +/- 0.03 U/ml of reaction mixture), or 29.4 +/- 0.6 nmol/liter per second). At infinite substrate concentrations with the same pH, buffer, and temperature, the Km (apparent) for NADH was 26.0 +/- 0.63 mumol/liter with LDH-1 and 23.2 +/- 4.6 mumol/liter with LDH-5.
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PMID:Detection of inhibitors in reduced nicotinamide adenine dinucleotide by kinetic methods. 18 80

The nucleotides 8-amino-, 8-methylamino-, and 8-dimethylaminoadenylic acid have been synthesized and their preferred conformations about the glycosyl bond in qaueous solution have been determined by 1H nuclear magnetic resonance spectroscopy. Paramagnetic relaxation studies, nuclear Overhauser enhancement measurements, chemical shifts, and coupling constant comparisons indicate that their is rotation about the glycosyl bond and that preference for either the anti or syn conformation depends on the extent of alkyl substitution on the 8-amino group. The primary and secondary amines 8-amino- and 8-methylaminoadenylic acid adopt a perferential anti conformation about the glycosyl bond, while the tertiary amine 8-dimethylaminoadenylic acid exists predominantly in the syn form. These three analogs provide a system to study interactions of a dehydrogenase with coenzyme inhibitors having different glycosyl conformer populations. All three analogs are competitive inhibitors of NADH in reaction with chicken muscle lactate dehydrogenase, and the Ki values show little dependence on the nature of the amino substitution. This demonstrates that the distribution of conformations about the nucleotide glycosyl bond does not effect the competition of the nucleotide for lactate dehydrogenase apoenzyme. Several models for enzyme-coenzyme binding are discussed. The available data cannot distinguish whether the enzyme binds nucleotide in both the anti and syn conformations or in purely the anti conformation. However, at some stage of the enzyme-coenzyme interaction, there appears to be a strong stabilization of the nucleotide in the anti conformation about the glycosyl bond.
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PMID:8-Alkylaminoadenyl nucleotides as probes of dehydrogenase interactions with nucleotide analogs of different glycosyl conformation. 18 19

The coenzyme affinity of lactate dehydrogenase of various parts of rat brain is different to deamino-NAD and NAD as well as to their reduced forms. In direct reactions NAD exhibits a higher activity than deamino-NAD. In the reverse reaction an opposite pattern is observed. The effect of deamino-NADH is much higher than that of NADH. Our studies have shown that the isoenzymes of LDH which are richer in H subunits have a higher affinity for deamino-NAD and deamino-NADH than for NAD and NADH. The isoenzymes of LDH that contain more M forms have opposite properties. LDH-3 does not show a pronounced selective affinity. The data obtained indicate that the activity of LDH and of its 5 isoenzymes varies greatly in different brain parts; crucial changes being observed in the relative percentage of molecular forms of LDH.
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PMID:[Coenzyme specificity and isoenzyme spectrum of lactate dehydrogenase from different regions of the brain]. 18 44

A new and more reliable way of quantitating lactate dehydrogenase activity, using NADH as a standard in a colorimetric assay, is proposed. Adopting the scheme, we obtained a CV of 2.6% and precision (95% limits) of +/-5.4% for enzyme activities ranging from 110 to 600 U/l. Comparative study against the modified kinetic method of Amador et al. showed excellent correlation, r = 0.99, p less than 0.001. A normal range of 75 to 203 U/l was determined for the proposed scheme.
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PMID:The use of NADH as a standard in a modified PMS-INT colorimetric assay of lactate dehydrogenase. 18 62

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