Journal article

Comprehensive structural, infrared spectroscopic and kinetic investigations of the roles of the active-site arginine in bidirectional hydrogen activation by the [NiFe]-hydrogenase ‘Hyd-2’ from <i>Escherichia coli</i>

Abstract:: The active site of [NiFe]-hydrogenases contains a strictly-conserved pendant arginine, the guanidine head group of which is suspended immediately above the Ni and Fe atoms. Replacement of this arginine (R479) in hydrogenase-2 from E. coli results in an enzyme that is isolated with a very tightly-bound diatomic ligand attached end-on to the Ni and stabilised by hydrogen bonding to the Nζ atom of the pendant lysine and one of the three additional water molecules located in the active site of the variant. The diatomic ligand is bound under oxidising conditions and is removed only after a prolonged period of reduction with H2 and reduced methyl viologen. Once freed of the diatomic ligand, the R479K variant catalyses both H2 oxidation and evolution but with greatly decreased rates compared to the native enzyme. Key kinetic characteristics are revealed by protein film electrochemistry: most importantly, a very low activation energy for H2 oxidation that is not linked to an increased H/D isotope effect. Native electrocatalytic reversibility is retained. The results show that the sluggish kinetics observed for the lysine variant arise most obviously because the advantage of a more favourable low-energy pathway is massively offset by an extremely unfavourable activation entropy. Extensive efforts to establish the identity of the diatomic ligand, the tight binding of which is an unexpected further consequence of replacing the pendant arginine, prove inconclusive

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Evans, R. M., Beaton, S. E., Macia, P. R., Pang, Y., Wong, K. L., Kertess, L., Myers, W. K., Bjornsson, R., Ash, P. A., Vincent, K. A., Carr, S. B., & Armstrong, F. A. (2023). Comprehensive structural, infrared spectroscopic and kinetic investigations of the roles of the active-site arginine in bidirectional hydrogen activation by the [NiFe]-hydrogenase ‘Hyd-2’ from <i>Escherichia coli</i>. Chemical Science, 14(32), 8531–8551.

MLA Style

Evans, RM, et al. “Comprehensive Structural, Infrared Spectroscopic and Kinetic Investigations of the Roles of the Active-Site Arginine in Bidirectional Hydrogen Activation by the [NiFe]-Hydrogenase ‘Hyd-2’ from <i>Escherichia Coli</i>.” Chemical Science, vol. 14, no. 32, 2023, pp. 8531–51.

Chicago Style

Evans, RM, SE Beaton, PR Macia, et al. 2023. “Comprehensive Structural, Infrared Spectroscopic and Kinetic Investigations of the Roles of the Active-Site Arginine in Bidirectional Hydrogen Activation by the [NiFe]-Hydrogenase ‘Hyd-2’ from <i>Escherichia Coli</i>.” Chemical Science 14 (32): 8531–51.
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Files:: Evans_et_al_2023_Comprehensive_structural_infrared.pdf

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Publisher copy:: 10.1039/d2sc05641k

Authors

+ Evans, RM More by this author

Institution:: University of Oxford
Role:: Author
ORCID:: 0000-0002-9549-4220

+ Beaton, SE More by this author

Institution:: University of Oxford
Role:: Author

+ Macia, PR More by this author

Institution:: University of Oxford
Role:: Author
ORCID:: 0000-0003-3513-0115

+ Pang, Y More by this author

Role:: Author
ORCID:: 0000-0002-5542-3962

+ Wong, KL More by this author

Institution:: University of Oxford
Role:: Author
ORCID:: 0000-0002-8479-2812

More authors...

+ Engineering and Physical Sciences Research Council More from this funder

Funder identifier:: 10.13039/501100000266
Grant:: EP/L011972

+ Biotechnology and Biological Sciences Research Council More from this funder

Funder identifier:: 10.13039/501100000268
Grant:: BB/I022309

+ Linacre College, University of Oxford More from this funder

Funder identifier:: 10.13039/100010349

+ Research School, Ruhr University Bochum More from this funder

Funder identifier:: 10.13039/501100008835

Publisher:: Royal Society of Chemistry
Journal:: Chemical Science More from this journal
Volume:: 14
Issue:: 32
Pages:: 8531-8551
Publication date:: 2023-08-16
DOI:: 10.1039/d2sc05641k
EISSN:: 2041-6539
ISSN:: 2041-6520

Language:: English
Keywords:: Photochemistry

Amino acid

Ligand (biochemistry)

Stereochemistry

Crystallography

Active site

Hydrogen bond

Organic chemistry

Arginine

Diatomic molecule

Chemistry

Biochemistry

Molecule

Hydrogen

Catalysis

Hydrogenase
Pubs id:: 1499379
Local pid:: pubs:1499379
Source identifiers:: W4385252199
Deposit date:: 2026-05-12
ARK identifier:: ark:/29072/ora_e31965bb10e04492b5b7825deb7e7975

Terms of use

Copyright date:: 2023

Licence:: CC Attribution (CC BY)

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