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PDBsum entry 6yf4
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Oxidoreductase
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PDB id
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6yf4
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References listed in PDB file
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Key reference
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Title
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The roles of long-Range proton-Coupled electron transfer in the directionality and efficiency of [fefe]-Hydrogenases.
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Authors
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O.Lampret,
J.Duan,
E.Hofmann,
M.Winkler,
F.A.Armstrong,
T.Happe.
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Ref.
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Proc Natl Acad Sci U S A, 2020,
117,
20520-20529.
[DOI no: ]
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PubMed id
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Abstract
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As paradigms for proton-coupled electron transfer in enzymes and benchmarks for
a fully renewable H2 technology, [FeFe]-hydrogenases behave as highly
reversible electrocatalysts when immobilized on an electrode, operating in both
catalytic directions with minimal overpotential requirement. Using the
[FeFe]-hydrogenases from Clostridium pasteurianum (CpI) and
Chlamydomonas reinhardtii (CrHydA1) we have conducted site-directed
mutagenesis and protein film electrochemistry to determine how efficient
catalysis depends on the long-range coupling of electron and proton transfer
steps. Importantly, the electron and proton transfer pathways in
[FeFe]-hydrogenases are well separated from each other in space. Variants with
conservative substitutions (glutamate to aspartate) in either of two positions
in the proton-transfer pathway retain significant activity and reveal the
consequences of slowing down proton transfer for both catalytic directions over
a wide range of pH and potential values. Proton reduction in the variants is
impaired mainly by limiting the turnover rate, which drops sharply as the pH is
raised, showing that proton capture from bulk solvent becomes critical. In
contrast, hydrogen oxidation is affected in two ways: by limiting the turnover
rate and by a large overpotential requirement that increases as the pH is
raised, consistent with the accumulation of a reduced and protonated
intermediate. A unique observation having fundamental significance is made under
conditions where the variants still retain sufficient catalytic activity in both
directions: An inflection appears as the catalytic current switches direction at
the 2H+/H2 thermodynamic potential, clearly signaling a
departure from electrocatalytic reversibility as electron and proton transfers
begin to be decoupled.
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