N2O Reductase Activity of a [Cu4S] Cluster in the 4CuI Redox State Modulated by Hydrogen Bond Donors and Proton Relays in the Secondary Coordination Sphere

The model complex [Cu4(μ4‐S)(dppa)4]2+ (1, dppa=μ2‐(Ph2P)2NH) has N2O reductase activity in methanol solvent, mediating 2 H+/2 e− reduction of N2O to N2+H2O in the presence of an exogenous electron donor (CoCp2). A stoichiometric product with two deprotonated dppa ligands was characterized, indicati...

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Published in:Angewandte Chemie International Edition 2020-01, Vol.59 (2), p.627-631
Main Authors: Hsu, Chia‐Wei, Rathnayaka, Suresh C., Islam, Shahidul M., MacMillan, Samantha N., Mankad, Neal P.
Format: Article
Language:English
Subjects:
bioinorganic chemistry
cluster compounds
Computer applications
Coordination compounds
Electron density
Hydrogen
Hydrogen bonding
Hydrogen bonds
Localization
Nitrous oxide
Protons
Redox properties
Reductase
Reductases
Reduction
second sphere
Solvents
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Mankad, Neal P.
description The model complex [Cu4(μ4‐S)(dppa)4]2+ (1, dppa=μ2‐(Ph2P)2NH) has N2O reductase activity in methanol solvent, mediating 2 H+/2 e− reduction of N2O to N2+H2O in the presence of an exogenous electron donor (CoCp2). A stoichiometric product with two deprotonated dppa ligands was characterized, indicating a key role of second‐sphere N−H residues as proton donors during N2O reduction. The activity of 1 towards N2O was suppressed in solvents that are unable to provide hydrogen bonding to the second‐sphere N−H groups. Structural and computational data indicate that second‐sphere hydrogen bonding induces structural distortion of the [Cu4S] active site, accessing a strained geometry with enhanced reactivity due to localization of electron density along a dicopper edge site. The behavior of 1 mimics aspects of the CuZ catalytic site of nitrous oxide reductase: activity in the 4CuI:1S redox state, use of a second‐sphere proton donor, and reactivity dependence on both primary and secondary sphere effects. N2O reductase activity of a synthetic model compound [Cu4S(dppa)4]2+ (dppa=(Ph2P)2NH) relies on both primary and secondary coordination sphere effects. It mediates the 2 H+/2 e− reduction of N2O to N2 and H2O in the presence of an exogenous electron donor (CoCp2).
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A stoichiometric product with two deprotonated dppa ligands was characterized, indicating a key role of second‐sphere N−H residues as proton donors during N2O reduction. The activity of 1 towards N2O was suppressed in solvents that are unable to provide hydrogen bonding to the second‐sphere N−H groups. Structural and computational data indicate that second‐sphere hydrogen bonding induces structural distortion of the [Cu4S] active site, accessing a strained geometry with enhanced reactivity due to localization of electron density along a dicopper edge site. The behavior of 1 mimics aspects of the CuZ catalytic site of nitrous oxide reductase: activity in the 4CuI:1S redox state, use of a second‐sphere proton donor, and reactivity dependence on both primary and secondary sphere effects. N2O reductase activity of a synthetic model compound [Cu4S(dppa)4]2+ (dppa=(Ph2P)2NH) relies on both primary and secondary coordination sphere effects. 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subjects bioinorganic chemistry
cluster compounds
Computer applications
Coordination compounds
Electron density
Hydrogen
Hydrogen bonding
Hydrogen bonds
Localization
Nitrous oxide
Protons
Redox properties
Reductase
Reductases
Reduction
second sphere
Solvents
title N2O Reductase Activity of a [Cu4S] Cluster in the 4CuI Redox State Modulated by Hydrogen Bond Donors and Proton Relays in the Secondary Coordination Sphere
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