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A new method for the determination of guanase is described. Xanthine, the product of the guanase reaction, is oxidized by xanthine oxidase, forming uric acid and hydrogen peroxide. Hydrogen peroxide is further reduced to water by catalase in the presence of ethanol. The acetaldehyde formed in this reaction step is dehydrogenated NAD or NADP dependent by aldehyde dehydrogenase. The NADH or NADPH production is measured and utilized for the calculation of the guanase activity. The sensitivity of the method can be doubled by the addition of uricase, which oxidizes uric acid to permit the formation of another mole of hydrogen peroxide.
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PMID:A new spectrophotometric assay for enzymes of purine metabolism. II. Determination of guanase activity. 48 57

A reduction in myocardial oxygen supply during ischemia, not only leads to reduced aerobic ATP production but does not stimulate glycolytic ATP synthesis. The residual aerobically synthesized ATP comes primarily from continued inefficient (i.e., compared to glucose in terms of moles of ATP produced per mole of O2 consumed) oxidation of fatty acids. This leads to elevated tissue levels of long chain fatty acyl-CoA and fatty acyl-carnitine. Both are potentially cell damaging metabolic intermediates. Restriction of glycolysis is due to inhibition of glyceraldehyde-3-phosphate dehydrogenase by accumulated metabolites, such as H+, lactate and NADH. The reduced production of ATP leads to decreased levels of high energy phosphate stores which in turn may impair myocardial mechanical function.
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PMID:Energy metabolism in the ischemic heart. 55 21

1. The respiratory chain energy conservation systems of Bacillus megaterium strains D440 and M have been investigated following growth in batch and continuous culture. Respiratory membranes from these strains contained cytochromes b, aa3, o and b, c, a, o, respecitvely; both readily oxidised NADH but neither showed any pyridine nucleotide transhydrogenase activity. 2. Whole cells of both strains exhibited endogenous leads to H+/O ratios of approximately 4; when loaded with specific substrates the resultant leads to H+/O ratios indicated that proton translocating loops 1 and 2 were present in strain D440 and that loops 2 and 3 were present in strain M. 3. In situ respiratory activities were measured as a function of dilution rate during growth in continuous culture. True molar growth yields with respect to oxygen (Y02) of approximately 50 g cells-mole oxygen-1 were obtained for most of the nutrient limitations employed. Average values for YATP of 12.7 and 10.8 g cells-mole ATP equivalent-1 were subsequently calculated for strains D440 and M respectively. 4. Energy requirements for maintenance purposes were low in energy-limited cultures but were substantially increased when growth was limited by nitrogen source (NH+/4). Under the latter conditions there is probably a partial uncoupling of energy-conserving and energy-utilising processes leading to energy wastage.
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PMID:Energy conservation in Bacillus megaterium. 81 45

The interaction of hydrophobic probes, 8-anilinonaphthalene-1-sulfonate (ANS) and 4-benzoylamido-4'-aminostilbene-2, 2'-disulfonate (MBAS), with pig heart lipoamide dehydrogenase [NADH: lipoamide oxidoreductase, EC 1.6.4.3] was investigated. When ANS or MBAS was mixed with the apoenzyme of lipoamide dehydrogenase, the fluorescence quantum yield, of each dye was enhancedd markedly and the emission maxima concurrently shifted to the blue. The quantum yield, 0.038, of ANS bound to the apoenzyme, calculated from the corrected emission spectrum, was eight times higher than that in buffer solution, and the value, 0.0090, for bound MBAS was eighteen times higher than that in buffer solution. Moreover, the absortion bands of both ANS and MBAS shifted to the red upon binding with the apoenzyme. A general feature of the absorption spectra of these dyes observed on changing the solvent from polar to apolar was a red shift of the absorption bands. These results indicate that ANS or MBAS bound to the apoenzyme of lipoamide dehydrogenase is situated in a hydrophobic region of the apoenzyme molecule. It was found that 2 moles of each dye was bound per mole of the apoenzyme, which contains two polypeptide chains. The dissociation constants for the ANS- and MBAS-apoenzyme complexes were estimated to be 1.03X10(-5) and 1.54X10(-5) M, respectively. The enhanced fluorescence of both dyes bound to the apoenzyme decreased linearly upon adding FAD and disappeared at about 2 moles of FAD per mole of the apoenzyme. This suggests that both ANS and MBAS were displaced from their binding sites on the apoenzyme by FAD. The protein fluorescence spectrum of the apoenzyme had a maximum at 352 nm, which was blue-shifted by 6 nm from that of tryptophan in the buffer. Upon binding ANS or MBAS, the maximum of the protein fluorescence of the apoenzyme returned to 350 nm for the holoenzyme, and the fluorescence intensity decreased. Thus, the conformation around some tryptophan residues was affected by the binding of the dyes. When guanidine hydrochloride (GuHCl) was added to the ANS-apoenzyme complex solution, the enhanced fluorescence due to the bound ANS decreased and the emission maximum concurrently shifted to the red. Further, the maximum of the protein fluorescence of the apoenzyme shifted to the red, indicating the exposure of some tryptophan residues buried in an apolar region of the apoenzyme. Thus the binding of ANS to the apoenzyme was inhibited by protein denaturation due to GuHCL. In contrast, the holoenzyme of lipoamide dehydrogenase did not bind ANS or MBAS at all.
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PMID:Interaction of hydrophobic probes with the apoenzyme of pig heart lipoamide dehydrogenase. 95 45

When anaerobic cultures of Propionibacterium pentosaceum were shifted to low dissolved-oxygen concentration (D.O.C.), acetate production from lactate diminished and propionate production stopped, whereas pyruvate accumulated and oxygen was consumed. Assuming that energy is generated in the electron transfer to oxygen, YATP values (g dry wt bacteria/mole ATP) of between 7.2 and 11.9 were calculated from molar growth yields and product formation. When oxidative phosphorylation in the electron transfer to oxygen was ignored, unreasonably high YATP values were obtained. From these results it is concluded that energy is indeed generated in the electron transfer to oxygen. However, synthesis of cytochrome b was strongly repressed by oxygen. Furthermore, synthesis of all catabolic enzymes studied was impaired in bacteria growing at low D.O.C. Thus, the anaerobic character of P. pentosaceum may be explained by the inhibition of synthesis of both cytochrome b and enzymes in the presence of oxygen. It was demonstrated that nitrate reductase is synthesized constitutively in P. pentosaceum. Synthesis of nitrate reductase was stimulated by nitrate and repressed by oxygen. Synthesis of fumarate reductase was also repressed by oxygen, whereas only a small effect of nitrate on this enzyme was observed. However, propionate formation is inhibited during growth with nitrate. The absence of propionate formation in the presence of oxygen and nitrate is explained by inavailability of NADH needed for the conversion of oxaloacetate into malate in the reductive pathway to succinate, so that succinate and propionate cannot be formed.
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PMID:Lactate metabolism in Propionibacterium pentosaceum growing with nitrate or oxygen as hydrogen acceptor. 108 38

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

A simple and sensitive enzymatic method for determination of plasma and serum fatty acids (FAs) is described. The method is based on acylation of long chain FAs by a bacterial acyl-CoA synthetase (ACS) producing equivalent amounts of acyl-CoA and AMP. AMP production was measured using the coupled reaction of myokinase (MK), pyruvate kinase (PK) and lactate dehydrogenase (LDH) allowing fluorinate detection of NADH. Two moles of NAD were produced per mole of FA acylated. Concentrations of substrates and enzymes were kept as low as possible maintaining the ACS reaction as rate limiting. Addition of fat-free human serum albumin (HSA) to standards reduced initial reaction rates but did not affect end-point fluorescence levels. Triton X-100 partly counteracted the inhibition by HSA. To keep albumin concentration low, plasma or serum samples were diluted by 1:400. Duplicate measurements of plasma or serum FA concentrations between 0 and 2 mmol l-1 can then be performed on 5 microliters samples with intra- and inter-assay variation coefficients of 1.7 and 4% respectively.
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PMID:Enzymatic microdetermination of plasma and serum free fatty acids. 145 65

Lipoamide dehydrogenase is a flavoprotein which catalyzes the reversible oxidation of dihydrolipoamide, Lip(SH)2, by NAD+. The ping-pong kinetic mechanism involves stable oxidized and two-electron-reduced forms. We have investigated the rate-limiting nature of proton transfer steps in both the forward and reverse reactions catalyzed by the pig heart enzyme by using a combination of alternate substrates and solvent kinetic isotope effect studies. With NAD+ as the variable substrate, and at a fixed, saturating concentration of either Lip(SH)2 or DTT, inverse solvent kinetic isotope effects of 0.68 +/- 0.05 and 0.71 +/- 0.05, respectively, were observed on V/K. Solvent kinetic isotope effects on V of 0.91 +/- 0.07 and 0.69 +/- 0.02 were determined when Lip(SH)2 or DTT, respectively, was used as reductant. When Lip(SH)2 or DTT was used as the variable substrate, at a fixed concentration of NAD+, solvent kinetic isotope effects of 0.74 +/- 0.06 and 0.51 +/- 0.04, respectively, were observed on V/K for these substrates. Plots of the kinetic parameters versus mole fraction D2O (proton inventories) were linear in all cases. Solvent kinetic isotope effect measurements performed in the reverse direction using NADH as the variable substrate showed equivalent, normal solvent kinetic isotope effects on V/KNADH when oxidized lipoamide, lipoic acid, or DTT were present at fixed, saturating concentrations. Solvent kinetic isotope effects on V were equal to 1.5-2.1. When solvent kinetic isotope effect measurements were performed using the disulfide substrates lipoamide, lipoic acid, or DTT as the variable substrates, normal kinetic isotope effects on V/K of 1.3-1.7 were observed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pig heart lipoamide dehydrogenase: solvent equilibrium and kinetic isotope effects. 155 95

African trypanosomes are devoid of glutathione reductase activity, and instead contain a unique flavoprotein variant, trypanothione reductase, which acts on a cyclic derivative of glutathione, trypanothione. The high degree of sequence similarity between trypanothione reductase and glutathione reductase, as well as the obvious similarity in the reactions catalyzed, led us to investigate the pH dependence of the kinetic parameters, and the isotopic behavior of trypanothione reductase. The pH dependence of the kinetic parameters V, V/K for NADH, and V/K for oxidized trypanothione has been determined for trypanothione reductase from Trypanosoma congolense. Both V/K for NADH and the maximum velocity decrease as single groups exhibiting pK values of 8.87 +/- 0.09 and 9.45 +/- 0.07, respectively, are deprotonated. V/K for oxidized trypanothione, T(S)2, decreases as two groups exhibiting experimentally indistinguishable pK values of 8.74 +/- 0.03 are deprotonated. Variable magnitudes of the primary deuterium kinetic isotope effects on pyridine nucleotide oxidation are observed on V and V/K when different pyridine nucleotide substrates are used, and the magnitude of DV and D(V/K) is independent of the oxidized trypanothione concentration at pH 7.25. Solvent kinetic isotope effects, obtained with 2',3'-cNADPH as the variable substrate, were observed on V only, and plots of V versus mole fraction of D2O (i.e., proton inventory) were linear, and yielded values of 1.3-1.6 for D2OV. Solvent kinetic isotope effects obtained with alternate pyridine nucleotides as substrates were also observed on V, and the magnitude of D2OV decreases for each pyridine nucleotide as its maximal velocity relative to that of NADPH oxidation decreases.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetic isotope effect analysis of the reaction catalyzed by Trypanosoma congolense trypanothione reductase. 163 54

Nitric oxide reductase was purified from Paracoccus denitrificans very nearly to homogeneity by a simple method that involved the use of octyl glucoside to solubilize the enzyme from membranes and required a single hydroxyapatite column. The enzyme had specific activities of about 10 mumol NO reduced x min-1 x mg-1 at pH 6.5 in an amperometric assay system using phenazine methosulfate/ascorbate as the reducing agent and about 22 mumol NO reduced x min-1 x mg-1 at pH 5.0, which is the optimum pH. These values are based on average rates over kinetically complex progress curves and would be about three times greater if based on maximum rate values. The enzyme appeared to be reversibly inhibited by NOaq and to have a Km too low (probably less than or equal to 1 microM) to measure reliably by the amperometric method. The effective second-order rate constant of the enzyme lay within 1 to 2 orders of magnitude of the diffusion controlled limit. The enzyme was composed of a tight complex of two cytochromes: a cytochrome c (Mr = 17,500) and a cytochrome b (Mr = 38,000). The mole ratios of cytochrome c to cytochrome b and Mr 17,500 peptide to Mr 38,000 peptide were both about 1.7, and the heme content was about 3 mol/73,000 g (38,000 + 2(17,500)). Each subunit therefore contained only one heme group. The Mr 38,000 peptide aggregated when heated in the sample buffer used for sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In addition to the ascorbate-based activity, the enzyme showed a little NADH-NO oxidoreductase activity which was not inhibited by antimycin A. The enzyme lost activity with a half-life of about 2 days at 4 degrees C but could be preserved at -20 degrees C and in liquid nitrogen. It seemed not to be inactivated by aerobic solutions. These observations, and the recent ones by Carr and Ferguson (Carr, G.J., and Ferguson, S.J. (1990) Biochem. J. 269, 423-429) with a partially purified preparation of nitric oxide reductase, establish that the enzyme from Pa. denitrificans is a cytochrome bc complex which resembles that from Pseudomonas stutzeri (Heiss, B., Frunzke, K., and Zumft, W.G. (1989) J. Bacteriol. 171, 3288-3297). There would appear to be no functional relationship between nitric oxide reductase and a Mr = 34,000 peptide of Pa. denitrificans membranes reported previously to be present in purified preparations of a nitric oxide reductase (Hoglen, J., and Hollocher, T.C. (1989) J. Biol. Chem. 264, 7556-7563).
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PMID:Nitric oxide reductase. Purification from Paracoccus denitrificans with use of a single column and some characteristics. 164 15

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