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Elucidation of the biosynthesis of the methane catalyst coenzyme F430

Elucidation of the biosynthesis of the methane catalyst coenzyme F430
Elucidation of the biosynthesis of the methane catalyst coenzyme F430
Methane biogenesis in methanogens is mediated by methyl-coenzyme M reductase, an enzyme that is also responsible for the utilization of methane through anaerobic methane oxidation. The enzyme uses an ancillary factor called coenzyme F430, a nickel-containing modified tetrapyrrole that promotes catalysis through a methyl radical/Ni(II)-thiolate intermediate. However, it is unclear how coenzyme F430 is synthesized from the common primogenitor uroporphyrinogen III, incorporating 11 steric centres into the macrocycle, although the pathway must involve chelation, amidation, macrocyclic ring reduction, lactamization and carbocyclic ring formation. Here we identify the proteins that catalyse the biosynthesis of coenzyme F430 from sirohydrochlorin, termed CfbA–CfbE, and demonstrate their activity. The research completes our understanding of how the repertoire of tetrapyrrole-based pigments are constructed, permitting the development of recombinant systems to use these metalloprosthetic groups more widely.
0028-0836
78-82
Moore, Simon J.
9a9edf57-d1ae-4078-a30d-211b62181ec3
Sowa, Sven T.
dd370b65-bf7e-47c6-abea-0af33c0512d7
Schuchardt, Christopher
553c186a-d7e8-4d4b-a146-b8fa852ff86b
Deery, Evelyne
16c10c8d-1383-4ce6-95dd-dfcfa0168875
Lawrence, Andrew D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Ramos, José Vazquez
03d60fdb-4e57-40bb-adff-defda26dbe35
Billig, Susan
712a3526-0ded-4305-8483-93afd0d5b941
Birkemeyer, Claudia
33f111f5-8d94-48a8-9eaf-090ed380b3f1
Chivers, Peter T.
72b2b29c-f8eb-4354-a026-5923c54ce98a
Howard, Mark J.
780e29b9-d377-47aa-b39c-18f8591fa73f
Rigby, Stephen E. J.
32656ae3-5d2f-4d00-b427-39979ffe8d00
Layer, Gunhild
ce71fc50-4b09-49a6-a76a-512a18d74a71
Warren, Martin J.
a148954e-1d91-4592-be69-9d575a753dc0
et al.
Moore, Simon J.
9a9edf57-d1ae-4078-a30d-211b62181ec3
Sowa, Sven T.
dd370b65-bf7e-47c6-abea-0af33c0512d7
Schuchardt, Christopher
553c186a-d7e8-4d4b-a146-b8fa852ff86b
Deery, Evelyne
16c10c8d-1383-4ce6-95dd-dfcfa0168875
Lawrence, Andrew D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Ramos, José Vazquez
03d60fdb-4e57-40bb-adff-defda26dbe35
Billig, Susan
712a3526-0ded-4305-8483-93afd0d5b941
Birkemeyer, Claudia
33f111f5-8d94-48a8-9eaf-090ed380b3f1
Chivers, Peter T.
72b2b29c-f8eb-4354-a026-5923c54ce98a
Howard, Mark J.
780e29b9-d377-47aa-b39c-18f8591fa73f
Rigby, Stephen E. J.
32656ae3-5d2f-4d00-b427-39979ffe8d00
Layer, Gunhild
ce71fc50-4b09-49a6-a76a-512a18d74a71
Warren, Martin J.
a148954e-1d91-4592-be69-9d575a753dc0

Moore, Simon J., Sowa, Sven T. and Schuchardt, Christopher , et al. (2017) Elucidation of the biosynthesis of the methane catalyst coenzyme F430. Nature, 543, 78-82. (doi:10.1038/nature21427).

Record type: Article

Abstract

Methane biogenesis in methanogens is mediated by methyl-coenzyme M reductase, an enzyme that is also responsible for the utilization of methane through anaerobic methane oxidation. The enzyme uses an ancillary factor called coenzyme F430, a nickel-containing modified tetrapyrrole that promotes catalysis through a methyl radical/Ni(II)-thiolate intermediate. However, it is unclear how coenzyme F430 is synthesized from the common primogenitor uroporphyrinogen III, incorporating 11 steric centres into the macrocycle, although the pathway must involve chelation, amidation, macrocyclic ring reduction, lactamization and carbocyclic ring formation. Here we identify the proteins that catalyse the biosynthesis of coenzyme F430 from sirohydrochlorin, termed CfbA–CfbE, and demonstrate their activity. The research completes our understanding of how the repertoire of tetrapyrrole-based pigments are constructed, permitting the development of recombinant systems to use these metalloprosthetic groups more widely.

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Accepted/In Press date: 25 January 2017
e-pub ahead of print date: 22 February 2017
Published date: 2 March 2017
Learn more about School of Biological Sciences research

Identifiers

Local EPrints ID: 488474
URI: http://eprints.soton.ac.uk/id/eprint/488474
DOI: doi:10.1038/nature21427
ISSN: 0028-0836
PURE UUID: fb0dd1b3-87e2-41c5-b31f-ade284ba955d
ORCID for Andrew D. Lawrence: ORCID iD orcid.org/0000-0002-5853-5409

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Date deposited: 22 Mar 2024 18:01
Last modified: 23 Mar 2024 03:10

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Contributors

Author: Simon J. Moore
Author: Sven T. Sowa
Author: Christopher Schuchardt
Author: Evelyne Deery
Author: Andrew D. Lawrence ORCID iD
Author: José Vazquez Ramos
Author: Susan Billig
Author: Claudia Birkemeyer
Author: Peter T. Chivers
Author: Mark J. Howard
Author: Stephen E. J. Rigby
Author: Gunhild Layer
Author: Martin J. Warren
Corporate Author: et al.

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