Genome-scale model of C. autoethanogenum reveals optimal bioprocess conditions for high-value chemical production from carbon monoxide

Norman, Rupert O.J.; Millat, Thomas; Schatschneider, Sarah; Henstra, Anne M.; Breitkopf, Ronja; Pander, Bart; Annan, Florence J.; Piatek, Pawel; Hartman, Hassan B.; Poolman, Mark G.; Fell, David A.; Winzer, Klaus; Minton, Nigel P.; Hodgman, Charlie

doi:10.1049/enb.2018.5003

Genome-scale model of C. autoethanogenum reveals optimal bioprocess conditions for high-value chemical production from carbon monoxide

Norman, Rupert O.J.; Millat, Thomas; Schatschneider, Sarah; Henstra, Anne M.; Breitkopf, Ronja; Pander, Bart; Annan, Florence J.; Piatek, Pawel; Hartman, Hassan B.; Poolman, Mark G.; Fell, David A.; Winzer, Klaus; Minton, Nigel P.; Hodgman, Charlie

Authors

Rupert O.J. Norman

Thomas Millat

Sarah Schatschneider

Anne M. Henstra

Ronja Breitkopf

Bart Pander

Florence J. Annan

Pawel Piatek

Hassan B. Hartman

Mark G. Poolman

David A. Fell

Dr Klaus Winzer klaus.winzer@nottingham.ac.uk
ASSOCIATE PROFESSOR

Professor NIGEL MINTON NIGEL.MINTON@NOTTINGHAM.AC.UK
PROFESSOR OF APPLIED MOLECULAR MICROBIOLOGY

Charlie Hodgman

Abstract

Clostridium autoethanogenum is an industrial microbe used for the commercial-scale production of ethanol from carbon monoxide. While significant progress has been made in the attempted diversification of this bioprocess, further improvements are desirable, particularly in the formation of the high-value platform chemicals, such as 2,3-butanediol. A new, experimentally parameterised genome scale model of C. autoethanogenum predicts dramatically increased 2,3-butanediol production under non-carbon-limited conditions when thermodynamic constraints on hydrogen production are considered.

Citation

Norman, R. O., Millat, T., Schatschneider, S., Henstra, A. M., Breitkopf, R., Pander, B., Annan, F. J., Piatek, P., Hartman, H. B., Poolman, M. G., Fell, D. A., Winzer, K., Minton, N. P., & Hodgman, C. (2019). Genome-scale model of C. autoethanogenum reveals optimal bioprocess conditions for high-value chemical production from carbon monoxide. Engineering Biology, 3(2), 32-40. https://doi.org/10.1049/enb.2018.5003

Journal Article Type	Article
Acceptance Date	Mar 20, 2019
Online Publication Date	Apr 17, 2019
Publication Date	Jun 30, 2019
Deposit Date	Apr 11, 2019
Publicly Available Date	Jun 24, 2019
Journal	Engineering Biology
Electronic ISSN	2398-6182
Publisher	Institution of Engineering and Technology (IET)
Peer Reviewed	Peer Reviewed
Volume	3
Issue	2
Pages	32-40
DOI	https://doi.org/10.1049/enb.2018.5003
Public URL	https://nottingham-repository.worktribe.com/output/1778211
Publisher URL	https://digital-library.theiet.org/content/journals/10.1049/enb.2018.5003
Contract Date	Jun 24, 2019

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