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Probing the NADH- and Methyl Red-binding site of a FMN-dependent azoreductase (AzoA) from Enterococcus faecalis.

Archives of biochemistry and biophysics (2012-03-06)
Jinhui Feng, Ohgew Kweon, Haiyan Xu, Carl E Cerniglia, Huizhong Chen
RESUMEN

AzoA from Enterococcus faecalis is a member of the polymeric flavin-dependent NADH-preferred azoreductase group. Little is known about the binding and interaction of NADH and azo dye in the azoreductase group. A synergetic strategy based on computational prediction, reverse genetics validation coupled with site-directed mutagenesis, and reconstruction of mutation network was used to investigate the binding and interaction of NADH and a model azo dye, Methyl Red, with AzoA. Methyl Red and NADH interacted in a unique binding mode in which the benzoic acid moiety of Methyl Red and the nicotinamide ring of NADH were not parallel to the flavin isoalloxazine ring, but lay against it at angles of ∼45° and ∼35°, respectively. The adenine ribose moiety of NADH was surrounded by loop ℓ2 on chain B and α3 on chain A in a typical Rossmann fold. There were 12 and 19 amino acid residues that could participate in the binding of Methyl Red and NADH, respectively, especially the residues Tyr-129 and Asp-184. The functional perturbation effects of 13 residues, including Tyr-129 and Asp-184, were mapped to reconstruct the mutation network, which confirmed the proposed binding modes and also provided insights into the interaction among NADH, FMN and Methyl Red.

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Sigma-Aldrich
Methyl Red, ACS reagent, crystalline
Millipore
Methyl Red solution, suitable for microbiology
Sigma-Aldrich
Methyl Red sodium salt, ACS reagent, Dye content 95 %
Sigma-Aldrich
Methyl Red sodium salt, Crystalline
Sigma-Aldrich
Methyl Red, JIS special grade
Sigma-Aldrich
Methyl Red solution, pH 4.2-6.2