Reduction-to-synthesis: the dominant approach to genome-scale synthetic biology

Kangsan Kim; Donghui Choe; Suhyung Cho; Bernhard Palsson; Byung Kwan Cho

doi:10.1016/j.tibtech.2024.02.008

Reduction-to-synthesis: the dominant approach to genome-scale synthetic biology

Kangsan Kim, Donghui Choe, Suhyung Cho, Bernhard Palsson, Byung Kwan Cho^*

^*Corresponding author for this work

Novo Nordisk Foundation Center for Biosustainability

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Abstract

Advances in systems and synthetic biology have propelled the construction of reduced bacterial genomes. Genome reduction was initially focused on exploring properties of minimal genomes, but more recently it has been deployed as an engineering strategy to enhance strain performance. This review provides the latest updates on reduced genomes, focusing on dual-track approaches of top-down reduction and bottom-up synthesis for their construction. Using cases from studies that are based on established industrial workhorse strains, we discuss the construction of a series of synthetic phenotypes that are candidates for biotechnological applications. Finally, we address the possible uses of reduced genomes for biotechnological applications and the needed future research directions that may ultimately lead to the total synthesis of rationally designed genomes.

Original language	English
Journal	Trends in Biotechnology
Volume	42
Issue number	8
Pages (from-to)	1048-1063
ISSN	0167-7799
DOIs	https://doi.org/10.1016/j.tibtech.2024.02.008
Publication status	Published - 2024

Keywords

Genome reduction
Minimal genome
Reduced genome

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10.1016/j.tibtech.2024.02.008

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title = "Reduction-to-synthesis: the dominant approach to genome-scale synthetic biology",

abstract = "Advances in systems and synthetic biology have propelled the construction of reduced bacterial genomes. Genome reduction was initially focused on exploring properties of minimal genomes, but more recently it has been deployed as an engineering strategy to enhance strain performance. This review provides the latest updates on reduced genomes, focusing on dual-track approaches of top-down reduction and bottom-up synthesis for their construction. Using cases from studies that are based on established industrial workhorse strains, we discuss the construction of a series of synthetic phenotypes that are candidates for biotechnological applications. Finally, we address the possible uses of reduced genomes for biotechnological applications and the needed future research directions that may ultimately lead to the total synthesis of rationally designed genomes.",

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AU - Choe, Donghui

AU - Cho, Suhyung

AU - Palsson, Bernhard

AU - Cho, Byung Kwan

PY - 2024

Y1 - 2024

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AB - Advances in systems and synthetic biology have propelled the construction of reduced bacterial genomes. Genome reduction was initially focused on exploring properties of minimal genomes, but more recently it has been deployed as an engineering strategy to enhance strain performance. This review provides the latest updates on reduced genomes, focusing on dual-track approaches of top-down reduction and bottom-up synthesis for their construction. Using cases from studies that are based on established industrial workhorse strains, we discuss the construction of a series of synthetic phenotypes that are candidates for biotechnological applications. Finally, we address the possible uses of reduced genomes for biotechnological applications and the needed future research directions that may ultimately lead to the total synthesis of rationally designed genomes.

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KW - Minimal genome

KW - Reduced genome

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JO - Trends in Biotechnology

JF - Trends in Biotechnology

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ER -

Reduction-to-synthesis: the dominant approach to genome-scale synthetic biology

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