Structural basis for the conformational protection of nitrogenase from O2
Sarah M Narehood, Brian D Cook, Suppachai Srisantitham, Vanessa Eng, Angela A Shiau, Kelly L McGuire, R. David Britt, Mark A Herzik, F. Akif Tezcan

TL;DR
This paper reveals how a protein complex protects nitrogenase from oxygen damage through structural changes.
Contribution
The study provides structural insights into the conformational protection mechanism of nitrogenase by FeSII.
Findings
FeSII forms an O2-resistant complex with nitrogenase proteins.
FeSII positions iron-sulfur clusters in an O2-protected state.
FeSII activation involves oxidation-induced conformational changes.
Abstract
The low reduction potentials required for the reduction of dinitrogen (N2) render metal-based nitrogen-fixation catalysts vulnerable to irreversible damage by dioxygen (O2). Such O2 sensitivity represents a major conundrum for the enzyme nitrogenase, as a large fraction of nitrogen-fixing organisms are either obligate aerobes or closely associated with O2-respiring organisms to support the high energy demand of catalytic N2 reduction. To counter O2 damage to nitrogenase, diazotrophs use O2 scavengers, exploit compartmentalization or maintain high respiration rates to minimize intracellular O2 concentrations. A last line of damage control is provided by the ‘conformational protection’ mechanism, in which a [2Fe:2S] ferredoxin-family protein termed FeSII is activated under O2 stress to form an O2-resistant complex with the nitrogenase component proteins. Despite previous insights, the…
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Taxonomy
TopicsMetalloenzymes and iron-sulfur proteins · Metal-Catalyzed Oxygenation Mechanisms · Organometallic Complex Synthesis and Catalysis
