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Hydride Conformers of the Nitrogenase FeMo-cofactor Two-Electron Reduced State E2(2H), Assigned Using Cryogenic Intra Electron Paramagnetic Resonance Cavity Photolysis.


ABSTRACT: Early studies in which nitrogenase was freeze-trapped during enzymatic turnover revealed the presence of high-spin ( S = 3/2) electron paramagnetic resonance (EPR) signals from the active-site FeMo-cofactor (FeMo-co) in electron-reduced intermediates of the MoFe protein. Historically denoted as 1b and 1c, each of the signals is describable as a fictitious spin system, S' = 1/2, with anisotropic g' tensor, 1b with g' = [4.21, 3.76, ?] and 1c with g' = [4.69, ?3.20, ?]. A clear discrepancy between the magnetic properties of 1b and 1c and the kinetic analysis of their appearance during pre-steady-state turnover left their identities in doubt, however. We subsequently associated 1b with the state having accumulated 2[e-/H+], denoted as E2(2H), and suggested that the reducing equivalents are stored on the catalytic FeMo-co cluster as an iron hydride, likely an [Fe-H-Fe] hydride bridge. Intra-EPR cavity photolysis (450 nm; temperature-independent from 4 to 12 K) of the E2(2H)/1b state now corroborates the identification of this state as storing two reducing equivalents as a hydride. Photolysis converts E2(2H)/1b to a state with the same EPR spectrum, and thus the same cofactor structure as pre-steady-state turnover 1c, but with a different active-site environment. Upon annealing of the photogenerated state at temperature T = 145 K, it relaxes back to E2(2H)/1b. This implies that the 1c signal comes from an E2(2H) hydride isomer of E2(2H)/1b that stores its two reducing equivalents either as a hydride bridge between a different pair of iron atoms or an Fe-H terminal hydride.

SUBMITTER: Lukoyanov DA 

PROVIDER: S-EPMC6008734 | biostudies-literature | 2018 Jun

REPOSITORIES: biostudies-literature

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Hydride Conformers of the Nitrogenase FeMo-cofactor Two-Electron Reduced State E<sub>2</sub>(2H), Assigned Using Cryogenic Intra Electron Paramagnetic Resonance Cavity Photolysis.

Lukoyanov Dmitriy A DA   Khadka Nimesh N   Yang Zhi-Yong ZY   Dean Dennis R DR   Seefeldt Lance C LC   Hoffman Brian M BM  

Inorganic chemistry 20180324 12


Early studies in which nitrogenase was freeze-trapped during enzymatic turnover revealed the presence of high-spin ( S = <sup>3</sup>/<sub>2</sub>) electron paramagnetic resonance (EPR) signals from the active-site FeMo-cofactor (FeMo-co) in electron-reduced intermediates of the MoFe protein. Historically denoted as 1b and 1c, each of the signals is describable as a fictitious spin system, S' = <sup>1</sup>/<sub>2</sub>, with anisotropic g' tensor, 1b with g' = [4.21, 3.76, ?] and 1c with g' = [  ...[more]

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