PMID: 2511196Nov 25, 1989Paper

The streptococcal flavoprotein NADH oxidase. II. Interactions of pyridine nucleotides with reduced and oxidized enzyme forms.

The Journal of Biological Chemistry
S A Ahmed, A Claiborne

Abstract

Anaerobic addition of 0.5 eq of NADH/FAD to the streptococcal NADH oxidase produces a redox form spectrally similar to that obtained with 0.5 eq of dithionite/FAD. The second phase of the titration, however, in addition to reducing the flavin with 1 eq of NADH/FAD, leads to the appearance of a long-wavelength absorbance band centered at 725 nm. Reductive titrations of the enzyme with 3-acetylpyridine-adenine dinucleotide, which has a redox potential 72 mV more positive than that of NADH, yield a similar reduced enzyme species. Dithionite reduction of the NADH oxidase followed by titration with NAD+ partially mimics the long-wavelength absorbance of the NADH-reduced enzyme but also leads to the oxidation of 1 FADH2/dimer. NADH is not formed, however, and a similar result is obtained when the dithionite-reduced oxidase is titrated with the nonreducible substrate analog 3-aminopyridine-adenine dinucleotide. These data indicate that the FADH2 oxidation observed is intramolecular and suggest that the active centers of the two apparently identical subunits/dimer are not equivalent. These results also demonstrate that bound pyridine nucleotides can modulate the redox manifold of the NADH oxidase and, when taken together with the effec...Continue Reading

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