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Demonstration that CobG, the monooxygenase associated with the ring contraction process of the aerobic cobalamin (Vitamin B12) biosynthetic pathway, contains an Fe-S center and a mononuclear non-heme iron center

Demonstration that CobG, the monooxygenase associated with the ring contraction process of the aerobic cobalamin (Vitamin B12) biosynthetic pathway, contains an Fe-S center and a mononuclear non-heme iron center
Demonstration that CobG, the monooxygenase associated with the ring contraction process of the aerobic cobalamin (Vitamin B12) biosynthetic pathway, contains an Fe-S center and a mononuclear non-heme iron center
The ring contraction process that occurs during cobalamin (vitamin B12) biosynthesis is mediated via the action of two enzymes, CobG and CobJ. The first of these generates a tertiary alcohol at the C-20 position of precorrin-3A by functioning as a monooxygenase, a reaction that also forms a gamma lactone with the acetic acid side chain on ring A. The product, precorrin-3B, is then acted upon by CobJ, which methylates at the C-17 position and promotes ring contraction of the macrocycle by catalyzing a masked pinacol rearrangement. Here, we report the characterization of CobG enzymes from Pseudomonas denitrificans and Brucella melitensis. We show that both contain a [4Fe-4S] center as well as a mononuclear non-heme iron. Although both enzymes are active in vivo, the P. denitrificans enzyme was found to be inactive in vitro. Further analysis of this enzyme revealed that the mononuclear non-heme iron was not reducible, and it was concluded that it is rapidly inactivated once it is released from the bacterial cell. In contrast, the B. melitensis enzyme was found to be fully active in vitro and the mononuclear non-heme iron was reducible by dithionite. The reduced mononuclear non-heme was able to react with the oxygen analogue NO, but only in the presence of the substrate precorrin-3A. The cysteine residues responsible for binding the Fe-S center were identified by site-directed mutagenesis. A mechanism for CobG is presented.
1083-351X
4796-4805
Schroeder, Susanne
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Lawrence, Andrew D.
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Biedendieck, Rebekka
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Rose, Ruth-Sarah
a48c2431-83b1-4fe7-9cbb-7098f6c1e240
Deery, Evelyne
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Graham, Ross M.
35d24f4c-5d0d-458f-afb6-02283f5ea037
McLean, Kirsty J.
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Munro, Andrew W.
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Rigby, Stephen E.J.
32656ae3-5d2f-4d00-b427-39979ffe8d00
Warren, Martin J.
1fa4cd21-70d6-4112-a60b-52cbb9633e81
et al.
Schroeder, Susanne
3bc51fbe-9fa2-4aec-b946-f2d5760a1129
Lawrence, Andrew D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Biedendieck, Rebekka
03b1d4e9-762c-495e-b5d1-9f61c4f16859
Rose, Ruth-Sarah
a48c2431-83b1-4fe7-9cbb-7098f6c1e240
Deery, Evelyne
16c10c8d-1383-4ce6-95dd-dfcfa0168875
Graham, Ross M.
35d24f4c-5d0d-458f-afb6-02283f5ea037
McLean, Kirsty J.
d168b3d8-0ce5-42d7-81a6-b6ba266ecee7
Munro, Andrew W.
4b84bf85-fe62-4d34-8f0e-f5824af1126f
Rigby, Stephen E.J.
32656ae3-5d2f-4d00-b427-39979ffe8d00
Warren, Martin J.
1fa4cd21-70d6-4112-a60b-52cbb9633e81

Schroeder, Susanne, Lawrence, Andrew D. and Biedendieck, Rebekka , et al. (2009) Demonstration that CobG, the monooxygenase associated with the ring contraction process of the aerobic cobalamin (Vitamin B12) biosynthetic pathway, contains an Fe-S center and a mononuclear non-heme iron center. Journal of Biological Chemistry, 248 (8), 4796-4805. (doi:10.1074/jbc.m807184200).

Record type: Article

Abstract

The ring contraction process that occurs during cobalamin (vitamin B12) biosynthesis is mediated via the action of two enzymes, CobG and CobJ. The first of these generates a tertiary alcohol at the C-20 position of precorrin-3A by functioning as a monooxygenase, a reaction that also forms a gamma lactone with the acetic acid side chain on ring A. The product, precorrin-3B, is then acted upon by CobJ, which methylates at the C-17 position and promotes ring contraction of the macrocycle by catalyzing a masked pinacol rearrangement. Here, we report the characterization of CobG enzymes from Pseudomonas denitrificans and Brucella melitensis. We show that both contain a [4Fe-4S] center as well as a mononuclear non-heme iron. Although both enzymes are active in vivo, the P. denitrificans enzyme was found to be inactive in vitro. Further analysis of this enzyme revealed that the mononuclear non-heme iron was not reducible, and it was concluded that it is rapidly inactivated once it is released from the bacterial cell. In contrast, the B. melitensis enzyme was found to be fully active in vitro and the mononuclear non-heme iron was reducible by dithionite. The reduced mononuclear non-heme was able to react with the oxygen analogue NO, but only in the presence of the substrate precorrin-3A. The cysteine residues responsible for binding the Fe-S center were identified by site-directed mutagenesis. A mechanism for CobG is presented.

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Published date: February 2009
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Local EPrints ID: 488479
URI: http://eprints.soton.ac.uk/id/eprint/488479
DOI: doi:10.1074/jbc.m807184200
ISSN: 1083-351X
PURE UUID: 4e2f5a7e-d1fe-40bd-a1e5-1343d836e732
ORCID for Andrew D. Lawrence: ORCID iD orcid.org/0000-0002-5853-5409

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Date deposited: 22 Mar 2024 18:40
Last modified: 23 Mar 2024 03:10

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Author: Susanne Schroeder
Author: Andrew D. Lawrence ORCID iD
Author: Rebekka Biedendieck
Author: Ruth-Sarah Rose
Author: Evelyne Deery
Author: Ross M. Graham
Author: Kirsty J. McLean
Author: Andrew W. Munro
Author: Stephen E.J. Rigby
Author: Martin J. Warren
Corporate Author: et al.

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