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Contrasting roles for two conserved arginines: Stabilizing flavin semiquinone or quaternary structure, in bifurcating electron transfer flavoproteins

Nishya Mohamed‐Raseek, Anne‐Frances Miller

2022Journal of Biological Chemistry15 citationsDOIOpen Access PDF

Abstract

. Perturbation of the ET site also affected the remote Bf site, whereas abrogation of Bf FAD binding accelerated chemical modification of the ET flavin. In the Bf site, removal of the positive charge impaired binding of FAD or AMP, resulting in unstable protein. Based on pH dependence, we propose that the Bf site Arg interacts with the phosphate(s) of Bf FAD or AMP, bridging the domain interface via a conserved peptide loop ("zipper") and favoring nucleotide binding. We further propose a model that rationalizes conservation of the Bf site Arg even in non-Bf ETFs, as well as AMP's stabilizing role in the latter, and provides a mechanism for coupling Bf flavin redox changes to domain-scale motion.

Topics & Concepts

FlavoproteinFlavin groupSemiquinoneChemistryElectron transferFlavin adenine dinucleotideStereochemistryCofactorBinding siteBiochemistryEnzymePhotochemistryQuinonePhotosynthetic Processes and MechanismsElectrochemical Analysis and ApplicationsAdvanced Fluorescence Microscopy Techniques