Role of Active Site Residues in Promoting Cobalt–Carbon Bond Homolysis in Adenosylcobalamin-Dependent Mutases Revealed through Experiment and Computation
Gabriel D. Román-Meléndez,Patrick von Glehn,Jeremy N. Harvey,Adrian J. Mulholland,E. Neil G. Marsh +4 more
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Results point to a dual role for glutamate mutase residues: they both stabilize the homolytic state through electrostatic interactions between the protein and the dissociated coenzyme and correctly position the adenosyl radical to facilitate the abstraction of hydrogen from the substrate.Abstract:
Adenosylcobalamin (AdoCbl) serves as a source of reactive free radicals that are generated by homolytic scission of the coenzyme’s cobalt–carbon bond. AdoCbl-dependent enzymes accelerate AdoCbl homolysis by ∼1012-fold, but the mechanism by which this is accomplished remains unclear. We have combined experimental and computational approaches to gain molecular-level insight into this process for glutamate mutase. Two residues, glutamate 330 and lysine 326, form hydrogen bonds with the adenosyl group of the coenzyme. A series of mutations that impair the enzyme’s ability to catalyze coenzyme homolysis and tritium exchange with the substrate by 2–4 orders of magnitude were introduced at these positions. These mutations, together with the wild-type enzyme, were also characterized in silico by molecular dynamics simulations of the enzyme–AdoCbl–substrate complex with AdoCbl modeled in the associated (Co–C bond formed) or dissociated [adenosyl radical with cob(II)alamin] state. The simulations reveal that the nu...read more
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Formation and Cleavage of C–C Bonds by Enzymatic Oxidation–Reduction Reactions
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QM/MM Calculations on Proteins
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Structural Basis for Substrate Specificity in Adenosylcobalamin-dependent Isobutyryl-CoA Mutase and Related Acyl-CoA Mutases
TL;DR: Crystal structures of IcmF, a natural fusion protein variant of isobutyryl- CoA mutase, in complex with the adenosylcobalamin cofactor and four different acyl-CoA substrates reveal active site architecture and determinants of substrate specificity, and suggest that a conformational change of the 5′-deoxyadenosyl group from C2-endo to C3′-endo could contribute to initiation of catalysis.
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Spectroscopic and computational studies of cobalamin species with variable lower axial ligation: implications for the mechanism of Co-C bond activation by class I cobalamin-dependent isomerases.
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