Inhibition of [FeFe]-Hydrogenases by Formaldehyde and Wider Mechanistic Implications for Biohydrogen Activation
Journal of the American Chemical Society2012Vol. 134(17), pp. 7553–7557
Citations Over TimeTop 17% of 2012 papers
Carina E. Foster, Tobias Krämer, Annemarie F. Wait, Alison Parkin, David P. Jennings, Thomas Happe, John E. McGrady, Fräser A. Armstrong
Abstract
Formaldehyde-a rapid and reversible inhibitor of hydrogen evolution by [FeFe]-hydrogenases-binds with a strong potential dependence that is almost complementary to that of CO. Whereas exogenous CO binds tightly to the oxidized state known as H(ox) but very weakly to a state two electrons more reduced, formaldehyde interacts most strongly with the latter. Formaldehyde thus intercepts increasingly reduced states of the catalytic cycle, and density functional theory calculations support the proposal that it reacts with the H-cluster directly, most likely targeting an otherwise elusive and highly reactive Fe-hydrido (Fe-H) intermediate.
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