Dissecting Electronic-Structural Transitions in the Nitrogenase MoFe Protein P-Cluster During Reduction

Document Type

Article

Journal/Book Title

Journal of the American Chemical Society

Publication Date

3-22-2022

Publisher

American Chemical Society

Volume

144

Issue

13

First Page

5708

Last Page

5712

Abstract

The [8Fe-7S] P-cluster of nitrogenase MoFe protein mediates electron transfer from nitrogenase Fe protein during the catalytic production of ammonia. The P-cluster transitions between three oxidation states, PN, P+, P2+ of which PN↔P+is critical to electron exchange in the nitrogenase complex during turnover. To dissect the steps in formation of P+during electron transfer, photochemical reduction of MoFe protein at 231-263 K was used to trap formation of P+ intermediates for analysis by EPR. In complexes with CdS nanocrystals, illumination of MoFe protein led to reduction of the P-cluster P2+that was coincident with formation of three distinct EPR signals: S = 1/2 axial and rhombic signals, and a high-spin S = 7/2 signal. Under dark annealing the axial and high-spin signal intensities declined, which coincided with an increase in the rhombic signal intensity. A fit of the time-dependent changes of the axial and high-spin signals to a reaction model demonstrates they are intermediates in the formation of the P-cluster P+resting state and defines how spin-state transitions are coupled to changes in P-cluster oxidation state in MoFe protein during electron transfer.

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