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An enzyme-trap approach allows isolation of intermediates in cobalamin biosynthesis

An enzyme-trap approach allows isolation of intermediates in cobalamin biosynthesis
An enzyme-trap approach allows isolation of intermediates in cobalamin biosynthesis
The biosynthesis of many vitamins and coenzymes has often proven difficult to elucidate owing to a combination of low abundance and kinetic lability of the pathway intermediates. Through a serial reconstruction of the cobalamin (vitamin B12) pathway in Escherichia coli and by His tagging the terminal enzyme in the reaction sequence, we have observed that many unstable intermediates can be isolated as tightly bound enzyme-product complexes. Together, these approaches have been used to extract intermediates between precorrin-4 and hydrogenobyrinic acid in their free acid form and permitted the delineation of the overall reaction catalyzed by CobL, including the formal elucidation of precorrin-7 as a metabolite. Furthermore, a substrate-carrier protein, CobE, that can also be used to stabilize some of the transient metabolic intermediates and enhance their onward transformation, has been identified. The tight association of pathway intermediates with enzymes provides evidence for a form of metabolite channeling.
1552-4450
933-940
Deery, Evelyne
16c10c8d-1383-4ce6-95dd-dfcfa0168875
Schroeder, Susanne
3bc51fbe-9fa2-4aec-b946-f2d5760a1129
Lawrence, Andrew D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Taylor, Samantha L.
45c93376-9314-4c6e-8be5-9b09003f0a87
Seyedarabi, Arefeh
fd15e2d4-5a1c-4660-952f-853874783b0f
Waterman, Jitka
f1f12079-1e51-4786-8d61-12debbcc574c
Wilson, Keith S.
4a8011b0-492c-4f63-a971-fb5ceb90b64a
Brown, David
37d54dd4-a481-4676-890c-a812ca514b7b
Geeves, Michael A.
133ec590-79dc-4e3f-b0b0-42f6dc9b98e4
Howard, Mark J.
780e29b9-d377-47aa-b39c-18f8591fa73f
Pickersgill, Richard W.
9e186a55-43cd-4e87-bb1b-3b4bba7a3a6d
Warren, Martin J.
3928fae6-cdea-4952-b453-0af7d2b17390
et al.
Deery, Evelyne
16c10c8d-1383-4ce6-95dd-dfcfa0168875
Schroeder, Susanne
3bc51fbe-9fa2-4aec-b946-f2d5760a1129
Lawrence, Andrew D.
ce503b40-0155-486f-bb1d-26830b61b5f1
Taylor, Samantha L.
45c93376-9314-4c6e-8be5-9b09003f0a87
Seyedarabi, Arefeh
fd15e2d4-5a1c-4660-952f-853874783b0f
Waterman, Jitka
f1f12079-1e51-4786-8d61-12debbcc574c
Wilson, Keith S.
4a8011b0-492c-4f63-a971-fb5ceb90b64a
Brown, David
37d54dd4-a481-4676-890c-a812ca514b7b
Geeves, Michael A.
133ec590-79dc-4e3f-b0b0-42f6dc9b98e4
Howard, Mark J.
780e29b9-d377-47aa-b39c-18f8591fa73f
Pickersgill, Richard W.
9e186a55-43cd-4e87-bb1b-3b4bba7a3a6d
Warren, Martin J.
3928fae6-cdea-4952-b453-0af7d2b17390

Deery, Evelyne, Schroeder, Susanne and Lawrence, Andrew D. , et al. (2012) An enzyme-trap approach allows isolation of intermediates in cobalamin biosynthesis. Nature Chemical Biology, 8, 933-940. (doi:10.1038/nchembio.1086).

Record type: Article

Abstract

The biosynthesis of many vitamins and coenzymes has often proven difficult to elucidate owing to a combination of low abundance and kinetic lability of the pathway intermediates. Through a serial reconstruction of the cobalamin (vitamin B12) pathway in Escherichia coli and by His tagging the terminal enzyme in the reaction sequence, we have observed that many unstable intermediates can be isolated as tightly bound enzyme-product complexes. Together, these approaches have been used to extract intermediates between precorrin-4 and hydrogenobyrinic acid in their free acid form and permitted the delineation of the overall reaction catalyzed by CobL, including the formal elucidation of precorrin-7 as a metabolite. Furthermore, a substrate-carrier protein, CobE, that can also be used to stabilize some of the transient metabolic intermediates and enhance their onward transformation, has been identified. The tight association of pathway intermediates with enzymes provides evidence for a form of metabolite channeling.

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Accepted/In Press date: 5 September 2012
e-pub ahead of print date: 7 October 2012
Published date: November 2012
Learn more about School of Biological Sciences research

Identifiers

Local EPrints ID: 488477
URI: http://eprints.soton.ac.uk/id/eprint/488477
DOI: doi:10.1038/nchembio.1086
ISSN: 1552-4450
PURE UUID: 2d6c7f7d-ce43-4f58-9cc8-f029635725da
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: Evelyne Deery
Author: Susanne Schroeder
Author: Andrew D. Lawrence ORCID iD
Author: Samantha L. Taylor
Author: Arefeh Seyedarabi
Author: Jitka Waterman
Author: Keith S. Wilson
Author: David Brown
Author: Michael A. Geeves
Author: Mark J. Howard
Author: Richard W. Pickersgill
Author: Martin J. Warren
Corporate Author: et al.

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