Characterisation of an unusual cysteine pair in the Rieske carnitine monooxygenase CntA catalytic site

Mussa Quareshy; Muralidharan Shanmugam; Alexander D. Cameron; Timothy D.H. Bugg; Yin Chen

doi:10.1111/febs.16722

Characterisation of an unusual cysteine pair in the Rieske carnitine monooxygenase CntA catalytic site

Mussa Quareshy^*, Muralidharan Shanmugam^*, Alexander D. Cameron, Timothy D.H. Bugg, Yin Chen

^*Corresponding author for this work

Manchester Institute of Biotechnology

The University of Warwick

Research output: Contribution to journal › Article › peer-review

Abstract

Rieske monooxygenases undertake complex catalysis integral to marine, terrestrial and human gut-ecosystems. Group-I to -IV Rieske monooxygenases accept aromatic substrates and have well-characterised catalytic mechanisms. Nascent to our understanding are Group-V members catalysing the oxidation/breakdown of quaternary ammonium substrates. Phylogenetic analysis of Group V highlights a cysteine residue-pair adjacent to the mononuclear Fe active site with no established role. Following our elucidation of the carnitine monooxygenase CntA structure, we probed the function of the cysteine pair Cys206/Cys209. Utilising biochemical and biophysical techniques, we found the cysteine residues do not play a structural role nor influence the electron transfer pathway, but rather are used in a nonstoichiometric role to ensure the catalytic iron centre remains in an Fe(II) state.

Original language	English
Pages (from-to)	2939-2953
Number of pages	15
Journal	FEBS Journal
Volume	290
Issue number	11
DOIs	https://doi.org/10.1111/febs.16722
Publication status	Published - Jun 2023

Keywords

carnitine
cw-EPR
cysteine residues
electron transfer
mononuclear Fe
Rieske monooxygenase

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10.1111/febs.16722

Cite this

@article{362674037ed543c7a8e2d2a9fad3917b,

title = "Characterisation of an unusual cysteine pair in the Rieske carnitine monooxygenase CntA catalytic site",

abstract = "Rieske monooxygenases undertake complex catalysis integral to marine, terrestrial and human gut-ecosystems. Group-I to -IV Rieske monooxygenases accept aromatic substrates and have well-characterised catalytic mechanisms. Nascent to our understanding are Group-V members catalysing the oxidation/breakdown of quaternary ammonium substrates. Phylogenetic analysis of Group V highlights a cysteine residue-pair adjacent to the mononuclear Fe active site with no established role. Following our elucidation of the carnitine monooxygenase CntA structure, we probed the function of the cysteine pair Cys206/Cys209. Utilising biochemical and biophysical techniques, we found the cysteine residues do not play a structural role nor influence the electron transfer pathway, but rather are used in a nonstoichiometric role to ensure the catalytic iron centre remains in an Fe(II) state.",

keywords = "carnitine, cw-EPR, cysteine residues, electron transfer, mononuclear Fe, Rieske monooxygenase",

author = "Mussa Quareshy and Muralidharan Shanmugam and Cameron, {Alexander D.} and Bugg, {Timothy D.H.} and Yin Chen",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. The FEBS Journal published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.",

year = "2023",

month = jun,

doi = "10.1111/febs.16722",

language = "English",

volume = "290",

pages = "2939--2953",

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issn = "1742-464X",

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TY - JOUR

T1 - Characterisation of an unusual cysteine pair in the Rieske carnitine monooxygenase CntA catalytic site

AU - Quareshy, Mussa

AU - Shanmugam, Muralidharan

AU - Cameron, Alexander D.

AU - Bugg, Timothy D.H.

AU - Chen, Yin

PY - 2023/6

Y1 - 2023/6

N2 - Rieske monooxygenases undertake complex catalysis integral to marine, terrestrial and human gut-ecosystems. Group-I to -IV Rieske monooxygenases accept aromatic substrates and have well-characterised catalytic mechanisms. Nascent to our understanding are Group-V members catalysing the oxidation/breakdown of quaternary ammonium substrates. Phylogenetic analysis of Group V highlights a cysteine residue-pair adjacent to the mononuclear Fe active site with no established role. Following our elucidation of the carnitine monooxygenase CntA structure, we probed the function of the cysteine pair Cys206/Cys209. Utilising biochemical and biophysical techniques, we found the cysteine residues do not play a structural role nor influence the electron transfer pathway, but rather are used in a nonstoichiometric role to ensure the catalytic iron centre remains in an Fe(II) state.

AB - Rieske monooxygenases undertake complex catalysis integral to marine, terrestrial and human gut-ecosystems. Group-I to -IV Rieske monooxygenases accept aromatic substrates and have well-characterised catalytic mechanisms. Nascent to our understanding are Group-V members catalysing the oxidation/breakdown of quaternary ammonium substrates. Phylogenetic analysis of Group V highlights a cysteine residue-pair adjacent to the mononuclear Fe active site with no established role. Following our elucidation of the carnitine monooxygenase CntA structure, we probed the function of the cysteine pair Cys206/Cys209. Utilising biochemical and biophysical techniques, we found the cysteine residues do not play a structural role nor influence the electron transfer pathway, but rather are used in a nonstoichiometric role to ensure the catalytic iron centre remains in an Fe(II) state.

KW - carnitine

KW - cw-EPR

KW - cysteine residues

KW - electron transfer

KW - mononuclear Fe

KW - Rieske monooxygenase

UR - http://www.scopus.com/inward/record.url?scp=85147042452&partnerID=8YFLogxK

U2 - 10.1111/febs.16722

DO - 10.1111/febs.16722

M3 - Article

C2 - 36617384

AN - SCOPUS:85147042452

SN - 1742-464X

VL - 290

SP - 2939

EP - 2953

JO - FEBS Journal

JF - FEBS Journal

IS - 11

ER -

Characterisation of an unusual cysteine pair in the Rieske carnitine monooxygenase CntA catalytic site

Abstract

Keywords

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Characterisation of an unusual cysteine pair in the Rieske carnitine monooxygenase CntA catalytic site

Abstract

Keywords

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EPSRC National Research Facility for Electron Paramagnetic Resonance

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