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Scaling-up engineering biology for enhanced environmental solutions

Scaling-up engineering biology for enhanced environmental solutions
Scaling-up engineering biology for enhanced environmental solutions
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. (1) Advances in SynBio, including automation, precise manipulation of genetic material, (2) and design of semisynthetic organisms with enhanced capabilities, can improve the efficiency of microbes for eliminating pollutants such as hydrocarbons and plastics or extracting valuable resources from the environment. (3) Genome editing technologies, such as CRISPR-Cas9, allows the editing of genomes with unprecedented accuracy, facilitating the development of organisms with desired traits or functions. (4) Furthermore, SynBio encompasses the engineering of metabolic enzymes within organisms, leading to the design of microbial factories capable of degrading complex and persistent chemicals, and converting waste to valuable resources. (5) These advancements also facilitate the manipulation of bacterial social behaviors, offering the capacity for tunable control at the multicellular level and engineered biofilms.
2161-5063
1586–1588
Hassard, Francis
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Curtis, Thomas
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Dotro, Gabriela
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Golyshin, Peter
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Gutierrez, Tony
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Heaven, Sonia
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Horsfall, Louise
d7182f97-3707-4808-a77b-6b83a9cf7e01
Jefferson, Bruce
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Jones, Davey L.
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Krasnogor, Natalio
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Kumar, Vinod
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Lea-Smith, David
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Le Corre Pidou, Kristell
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Liu, Yong-Qiang
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Lyu, Tao
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R. McCarthy, Ronan
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McKew, Boyd
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Smith, Cindy
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Yakunin, Alexander
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Yang, Zhugen
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Zhang, Yue
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Coulon, Frederic
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Hassard, Francis
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Curtis, Thomas
cbf61da7-29a2-4069-b619-bf00d3b6766c
Dotro, Gabriela
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Golyshin, Peter
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Gutierrez, Tony
476fe7b8-3486-4597-bfd4-929e1c452752
Heaven, Sonia
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Horsfall, Louise
d7182f97-3707-4808-a77b-6b83a9cf7e01
Jefferson, Bruce
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Jones, Davey L.
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Krasnogor, Natalio
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Kumar, Vinod
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Lea-Smith, David
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Le Corre Pidou, Kristell
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Liu, Yong-Qiang
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Lyu, Tao
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R. McCarthy, Ronan
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McKew, Boyd
9d4542a0-6291-4b35-82f1-6a3aa9209349
Smith, Cindy
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Yakunin, Alexander
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Yang, Zhugen
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Zhang, Yue
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Coulon, Frederic
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Hassard, Francis, Curtis, Thomas, Dotro, Gabriela, Golyshin, Peter, Gutierrez, Tony, Heaven, Sonia, Horsfall, Louise, Jefferson, Bruce, Jones, Davey L., Krasnogor, Natalio, Kumar, Vinod, Lea-Smith, David, Le Corre Pidou, Kristell, Liu, Yong-Qiang, Lyu, Tao, R. McCarthy, Ronan, McKew, Boyd, Smith, Cindy, Yakunin, Alexander, Yang, Zhugen, Zhang, Yue and Coulon, Frederic (2024) Scaling-up engineering biology for enhanced environmental solutions. ACS Synthetic Biology, 13 (6), 1586–1588. (doi:10.1021/acssynbio.4c00292).

Record type: Article

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. (1) Advances in SynBio, including automation, precise manipulation of genetic material, (2) and design of semisynthetic organisms with enhanced capabilities, can improve the efficiency of microbes for eliminating pollutants such as hydrocarbons and plastics or extracting valuable resources from the environment. (3) Genome editing technologies, such as CRISPR-Cas9, allows the editing of genomes with unprecedented accuracy, facilitating the development of organisms with desired traits or functions. (4) Furthermore, SynBio encompasses the engineering of metabolic enzymes within organisms, leading to the design of microbial factories capable of degrading complex and persistent chemicals, and converting waste to valuable resources. (5) These advancements also facilitate the manipulation of bacterial social behaviors, offering the capacity for tunable control at the multicellular level and engineered biofilms.

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e-pub ahead of print date: 21 June 2024
Published date: 21 June 2024

Identifiers

Local EPrints ID: 491958
URI: http://eprints.soton.ac.uk/id/eprint/491958
DOI: doi:10.1021/acssynbio.4c00292
ISSN: 2161-5063
PURE UUID: 56b43397-6e30-4b24-8163-c1da9289cf2e
ORCID for Sonia Heaven: ORCID iD orcid.org/0000-0001-7798-4683
ORCID for Yong-Qiang Liu: ORCID iD orcid.org/0000-0001-9688-1786
ORCID for Yue Zhang: ORCID iD orcid.org/0000-0002-5068-2260

Catalogue record

Date deposited: 09 Jul 2024 17:26
Last modified: 19 Jul 2024 01:45

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Contributors

Author: Francis Hassard
Author: Thomas Curtis
Author: Gabriela Dotro
Author: Peter Golyshin
Author: Tony Gutierrez
Author: Sonia Heaven ORCID iD
Author: Louise Horsfall
Author: Bruce Jefferson
Author: Davey L. Jones
Author: Natalio Krasnogor
Author: Vinod Kumar
Author: David Lea-Smith
Author: Kristell Le Corre Pidou
Author: Yong-Qiang Liu ORCID iD
Author: Tao Lyu
Author: Ronan R. McCarthy
Author: Boyd McKew
Author: Cindy Smith
Author: Alexander Yakunin
Author: Zhugen Yang
Author: Yue Zhang ORCID iD
Author: Frederic Coulon

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