X-ray structural, functional and computational studies of the O2-sensitive E. coli hydrogenase-1 C19G variant reveal an unusual [4Fe–4S] cluster | Zendy

Anne Volbeda | Zendy; JeanMarie Mouesca | Zendy; Claudine Darnault | Zendy; Maxie M. Roessler | Zendy; Alison Parkin | Zendy; Fräser A. Armstrong | Zendy; Juan C. FontecillaCamps | Zendy

Open Access

X-ray structural, functional and computational studies of the O₂-sensitive E. coli hydrogenase-1 C19G variant reveal an unusual [4Fe–4S] cluster

Author(s) -

Anne Volbeda,

JeanMarie Mouesca,

Claudine Darnault,

Maxie M. Roessler,

Alison Parkin,

Fräser A. Armstrong,

Juan C. FontecillaCamps

Publication year - 2018

Publication title -

chemical communications

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.837

H-Index - 333

eISSN - 1364-548X

pISSN - 1359-7345

DOI - 10.1039/c8cc02896f

Subject(s) - hydrogenase , cluster (spacecraft) , crystallography , density functional theory , chemistry , materials science , computational biology , computational chemistry , computer science , biology , enzyme , biochemistry , programming language

The crystal structure of the Escherichia coli O2-sensitive C19G [NiFe]-hydrogenase-1 variant shows that the mutation results in a novel FeS cluster, proximal to the Ni-Fe active site. While the proximal cluster of the native O2-tolerant enzyme can transfer two electrons to that site, EPR spectroscopy shows that the modified cluster can transfer only one electron, this shortfall coinciding with O2 sensitivity. Computational studies on electron transfer help to explain how the structural and redox properties of the novel FeS cluster modulate the observed phenotype.

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