Scaling-up engineering biology for enhanced environmental solutions
Date
2024-06-21
Authors
Hassard, Francis
Curtis, Thomas P.
Dotro, Gabriela C.
Golyshin, Peter
Gutierrez, Tony
Heaven, Sonia
Horsfall, Louise
Jefferson, Bruce
Jones, Davey L.
Krasnogor, Natalio
Kumar, Vinod
Lea-Smith, David J.
Le Corre Pidou, Kristell
Liu, Yongqiang
Lyu, Tao
McCarthy, Ronan R.
McKew, Boyd
Smith, Cindy
Yakunin, Alexander
Yang, Zhugen
Zhang, Yue
Coulon, Frederic
Curtis, Thomas P.
Dotro, Gabriela C.
Golyshin, Peter
Gutierrez, Tony
Heaven, Sonia
Horsfall, Louise
Jefferson, Bruce
Jones, Davey L.
Krasnogor, Natalio
Kumar, Vinod
Lea-Smith, David J.
Le Corre Pidou, Kristell
Liu, Yongqiang
Lyu, Tao
McCarthy, Ronan R.
McKew, Boyd
Smith, Cindy
Yakunin, Alexander
Yang, Zhugen
Zhang, Yue
Coulon, Frederic
Supervisor/s
Journal Title
Journal ISSN
Volume Title
Publisher
American Chemical Society (ACS)
Department
Type
Article
ISSN
2161-5063
Format
Free to read from
Citation
Hassard F, Curtis TP, Dotro GC, et al., (2024) Scaling-up engineering biology for enhanced environmental solutions. ACS Synthetic Biology, Volume 13, Issue 6, June 2024, pp.1586-1588
Abstract
Synthetic biology (SynBio) offers transformative solutions for addressing environmental challenges by engineering organisms capable of degrading pollutants, enhancing carbon sequestration, and valorizing waste (Figure 1). These innovations hold the potential to revolutionize bioremediation strategies, ecosystem restoration, and sustainable environmental management.
Description
Viewpoint article
Software Description
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Github
Keywords
DOI
Rights
Attribution 4.0 International
Relationships
Relationships
Supplements
Funder/s
BBSRC (grant number: BB/Y008332/1)