J. Am. Chem. Soc.
 2024
DOI: 10.1021/jacs.4c03489
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Replacing a Cysteine Ligand by Selenocysteine in a [NiFe]-Hydrogenase Unlocks Hydrogen Production Activity and Addresses the Role of Concerted Proton-Coupled Electron Transfer in Electrocatalytic Reversibility

Rhiannon M. Evans,
Natalie Krahn,
Joshua Weiss
et al.

Abstract: Hydrogenases catalyze hydrogen/proton interconversion that is normally electrochemically reversible (having minimal overpotential requirement), a special property otherwise almost exclusive to platinum metals. The mechanism of [NiFe]-hydrogenases includes a long-range proton-coupled electron-transfer process involving a specific Ni-coordinated cysteine and the carboxylate of a nearby glutamate. A variant in which this cysteine has been exchanged for selenocysteine displays two distinct changes in electrocataly… Show more

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“…Further engineering of the tRNA UTu1 D-arm to improve SelA binding showed a significant improvement in Sec insertion. This tRNA and others (allo-tRNA UTu2D ) have since been reliably used for downstream applications ( Evans et al, 2021 ; Evans et al, 2024 ; Morosky et al, 2023 ).…”
Section: Translocation Through the Ribosomementioning
confidence: 99%

Tuning tRNAs for improved translation

Weiss,
Decker,
Bolano
et al. 2024
Front. Genet.
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“…Further engineering of the tRNA UTu1 D-arm to improve SelA binding showed a significant improvement in Sec insertion. This tRNA and others (allo-tRNA UTu2D ) have since been reliably used for downstream applications ( Evans et al, 2021 ; Evans et al, 2024 ; Morosky et al, 2023 ).…”
Section: Translocation Through the Ribosomementioning
confidence: 99%

Tuning tRNAs for improved translation

Weiss,
Decker,
Bolano
et al. 2024
Front. Genet.
Self Cite
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0
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