Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.8.1.4 (diaphorase)
 2,754 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Macroscopic pKa values associated with the influence of pH on the visible spectrum of 2-electron reduced pig heart lipoamide dehydrogenase and yeast glutathione reductase have been determined by monitoring changes in the principal flavin band near 460 nm and the charge transfer band at 540 nm. The ionization of at least three active site amino acid side chains can influence the spectra over the range of pH studied: the two nascent thiols (interchange thiol and electron transfer thiol) and the histidine residue which acts as the base catalyst in lipoamide dehydrogenase and the acid catalyst in glutathione reductase thiol-disulfide interchange reactions. These systems are analogous to, but more complex than, those in glyceraldehyde-3-phosphate dehydrogenase and papain where a single thiol and a histidine residue in a relatively apolar milieu form a thiolate-imidazolium ion pair which is favored over the thiol-imidazole prototropic tautomer. In an effort to more nearly mimic the papain titrations, the macroscopic pKa values were determined on reduced glutathione reductase which had been monoalkylated with iodoacetamide under conditions known to favor the reaction of the interchange thiol by at least 10 to 1 (Arscott, L. D., Thorpe, C., and Williams, C. H., Jr. (1981) Biochemistry 20, 1513-1520). Like papain and glyceraldehyde-3-phosphate dehydrogenase, alkylated glutathione reductase showed two macroscopic pKa values, at pH 3.7 and pH 9.1, and by analogy, these were associated primarily with the thiol and the imidazole, respectively. Results with the native enzymes depended on the wavelength monitored. Glutathione reductase had pKa values at 4.8, 7.1, and 9.2 when monitored at 540 nm and 5.1 and 8.2 when monitored at 462 nm. Lipoamide dehydrogenase had pKa values at 4.4 and 8.7 when monitored at 529 nm and 3.9, 7.0, and 9.3 when monitored at 455 nm.
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PMID:Titration studies on the active sites of pig heart lipoamide dehydrogenase and yeast glutathione reductase as monitored by the charge transfer absorbance. 265 72

1. Bovine kidney pyruvate dehydrogenase multienzyme complex is inactivated rapidly by papain. However, none of the component activities of the complex is destroyed during inactivation of the overall reaction. 2. The core component, lipoate acetyltransferase, is cleaved by papain to give principal fragments with Mr 26,500 and 26,000 (as determined by dodecylsulfate gel electrophoresis). Much more slowly, the alpha chain of the pyruvate dehydrogenase component is attacked. 3. Fragmented lipoate acetyltransferase retains its complete enzymatic activity and remains of high molecular weight. It is unable, however, to bind the other component enzymes, pyruvate dehydrogenase and lipoamide dehydrogenase. Therefore, the multienzyme complex is disassembled when treated with papain. 4. A method is described which allows the rapid and convenient isolation of nicked lipoate acetyltransferase as well as unfragmented pyruvate dehydrogenase and lipoamide dehydrogenase from papain-treated complex under very mild conditions. The two uncleaved component enzymes have identical properties and similar specific activities as enzyme preparations obtained by other, more laborious procedures.
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PMID:Bovine kidney pyruvate dehydrogenase complex. Isolation of the component enzymes after limited proteolysis with papain. 676 70

Two-electron reduced glutathione reductase from yeast reacted with iodoacetamide is alkylated almost exclusively in the nascent thiol nearer the amino terminus of the protein. The charge-transfer absorbance, maximal at 530 nm, characteristic of the two-electron reduced enzyme is not lost as the alkylation proceeds, and the product has a spectrum virtually identical with that of the two-electron reduced enzyme. This observation demonstrates that the thiol alkylated is not the charge-transfer-donor thiolate which interacts with the FAD. The spectrum of the monoalkylated derivative is stable in the presence of oxidized glutathione, indicating that the charge-transfer-donor thiol is not involved in interchange with the substrate in the native enzyme. Thus, the nascent thiols produced upon two-electron reduction of glutathione reductase have distinct functions, interchange with the substrate and interaction with the FAD. Treatment of the monoalkylated derivative with the apolar phenylmercuric acetate eliminates the charge-transfer interaction. The spectrum of the resulting species is similar to that of the oxidized enzyme but less resolved and blue shifted by 10 nm. The dependence on pH of the absorbance associated with the thiolate to FAD charge-transfer interaction in native two-electron reduced glutathione reductase is biphasic, with pK values at approximately 4.8 and 7.4. By analogy with glyceraldehyde-3-phosphate dehydrogenase and papain, these data indicate that the thiolate is stabilized by an adjacent basic residue. The pK 7.4 is associated with the titration of the base to give the ion pair, and the pK of 4.8 is associated with the titration of the thiolate. Unlike lipoamide dehydrogenase, glutathione reductase is sufficiently stable to allow titration with dithionite at pH 3.7. The spectrum at this pH is essentially the same as that of the monoalkylated derivative treated with phenylmercuric acetate. The changes with pH are completely reversible.
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PMID:Glutathione reductase from yeast. Differential reactivity of the nascent thiols in two-electron reduced enzyme and properties of a monoalkylated derivative. 701 96