Aerobic synthesis of vitamin B12: ring contraction and cobalt chelation
Aerobic synthesis of vitamin B12: ring contraction and cobalt chelation
The aerobic biosynthetic pathway for vitamin B12 (cobalamin) biosynthesis is reviewed. Particular attention is focused on the ring contraction process, whereby an integral carbon atom of the tetrapyrrole-derived macrocycle is removed. Previous work had established that this chemically demanding step is facilitated by the action of a mono-oxygenase called CobG, which generates a hydroxy lactone intermediate. This mono-oxygenase contains both a non-haem iron and an Fe-S centre, but little information is known about its mechanism. Recent work has established that in bacteria such as Rhodobacter capsulatus, CobG is substituted by an isofunctional protein called CobZ. This protein has been shown to contain flavin, haem and Fe-S centres. A mechanism is proposed to explain the function of CobZ. Another interesting aspect of the aerobic cobalamin biosynthetic pathway is cobalt insertion, which displays some similarity to the process of magnesium chelation in chlorophyll synthesis. The genetic requirements of cobalt chelation and the subsequent reduction of the metal ion are discussed.
815-819
Heldt, D.
4512dd08-775b-4e51-8331-c7fa174345b4
Lawrence, A.D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Lindenmeyer, M.
850bdadf-0d13-4a6f-bfd7-f91628d6c1c9
Deery, E.
16c10c8d-1383-4ce6-95dd-dfcfa0168875
Heathcote, P.
a9d9515b-e2dd-48fc-85e8-a25182b233aa
Rigby, S.E.
32656ae3-5d2f-4d00-b427-39979ffe8d00
Warren, M.J.
3928fae6-cdea-4952-b453-0af7d2b17390
1 August 2005
Heldt, D.
4512dd08-775b-4e51-8331-c7fa174345b4
Lawrence, A.D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Lindenmeyer, M.
850bdadf-0d13-4a6f-bfd7-f91628d6c1c9
Deery, E.
16c10c8d-1383-4ce6-95dd-dfcfa0168875
Heathcote, P.
a9d9515b-e2dd-48fc-85e8-a25182b233aa
Rigby, S.E.
32656ae3-5d2f-4d00-b427-39979ffe8d00
Warren, M.J.
3928fae6-cdea-4952-b453-0af7d2b17390
Heldt, D., Lawrence, A.D. and Lindenmeyer, M.
,
et al.
(2005)
Aerobic synthesis of vitamin B12: ring contraction and cobalt chelation.
Biochemical Society Transactions, 33 (4), .
(doi:10.1042/bst0330815).
Abstract
The aerobic biosynthetic pathway for vitamin B12 (cobalamin) biosynthesis is reviewed. Particular attention is focused on the ring contraction process, whereby an integral carbon atom of the tetrapyrrole-derived macrocycle is removed. Previous work had established that this chemically demanding step is facilitated by the action of a mono-oxygenase called CobG, which generates a hydroxy lactone intermediate. This mono-oxygenase contains both a non-haem iron and an Fe-S centre, but little information is known about its mechanism. Recent work has established that in bacteria such as Rhodobacter capsulatus, CobG is substituted by an isofunctional protein called CobZ. This protein has been shown to contain flavin, haem and Fe-S centres. A mechanism is proposed to explain the function of CobZ. Another interesting aspect of the aerobic cobalamin biosynthetic pathway is cobalt insertion, which displays some similarity to the process of magnesium chelation in chlorophyll synthesis. The genetic requirements of cobalt chelation and the subsequent reduction of the metal ion are discussed.
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Published date: 1 August 2005
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Local EPrints ID: 488510
URI: http://eprints.soton.ac.uk/id/eprint/488510
ISSN: 0300-5127
PURE UUID: 95364e57-44c3-43c5-9328-2ecd0b647a3f
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Date deposited: 26 Mar 2024 17:36
Last modified: 27 Mar 2024 03:04
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Author:
D. Heldt
Author:
A.D. Lawrence
Author:
M. Lindenmeyer
Author:
E. Deery
Author:
P. Heathcote
Author:
S.E. Rigby
Author:
M.J. Warren
Corporate Author: et al.
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