Converting Escherichia coli MG1655 into a chemical overproducer through inactivating defense system against exogenous DNA

Jingge Wang; Chaoyong Huang; Kai Guo; Lianjie Ma; Xiangyu Meng; Ning Wang; Yi Xin Huo

doi:10.1016/j.synbio.2020.10.005

Converting Escherichia coli MG1655 into a chemical overproducer through inactivating defense system against exogenous DNA

Jingge Wang, Chaoyong Huang, Kai Guo, Lianjie Ma, Xiangyu Meng, Ning Wang^*, Yi Xin Huo^*

^*此作品的通讯作者

生命学院

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

Escherichia coli strain K-12 MG1655 has been proposed as an appropriate host strain for industrial production. However, the direct application of this strain suffers from the transformation inefficiency and plasmid instability. Herein, we conducted genetic modifications at a serial of loci of MG1655 genome, generating a robust and universal host strain JW128 with higher transformation efficiency and plasmid stability that can be used to efficiently produce desired chemicals after introducing the corresponding synthetic pathways. Using JW128 as the host, the titer of isobutanol reached 5.76 g/L in shake-flask fermentation, and the titer of lycopene reached 1.91 g/L in test-tube fermentation, 40-fold and 5-fold higher than that of original MG1655, respectively. These results demonstrated JW128 is a promising chassis for high-level production of value-added chemicals.

源语言	英语
页（从-至）	333-342
页数	10
期刊	Synthetic and Systems Biotechnology
卷	5
期	4
DOI	https://doi.org/10.1016/j.synbio.2020.10.005
出版状态	已出版 - 12月 2020

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title = "Converting Escherichia coli MG1655 into a chemical overproducer through inactivating defense system against exogenous DNA",

abstract = "Escherichia coli strain K-12 MG1655 has been proposed as an appropriate host strain for industrial production. However, the direct application of this strain suffers from the transformation inefficiency and plasmid instability. Herein, we conducted genetic modifications at a serial of loci of MG1655 genome, generating a robust and universal host strain JW128 with higher transformation efficiency and plasmid stability that can be used to efficiently produce desired chemicals after introducing the corresponding synthetic pathways. Using JW128 as the host, the titer of isobutanol reached 5.76 g/L in shake-flask fermentation, and the titer of lycopene reached 1.91 g/L in test-tube fermentation, 40-fold and 5-fold higher than that of original MG1655, respectively. These results demonstrated JW128 is a promising chassis for high-level production of value-added chemicals.",

keywords = "CRISPR‐Cas9, Defense system, Escherichia coli, MG1655, Metabolic engineering",

author = "Jingge Wang and Chaoyong Huang and Kai Guo and Lianjie Ma and Xiangyu Meng and Ning Wang and Huo, {Yi Xin}",

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doi = "10.1016/j.synbio.2020.10.005",

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AU - Wang, Jingge

AU - Huang, Chaoyong

AU - Guo, Kai

AU - Ma, Lianjie

AU - Meng, Xiangyu

AU - Wang, Ning

AU - Huo, Yi Xin

PY - 2020/12

Y1 - 2020/12

N2 - Escherichia coli strain K-12 MG1655 has been proposed as an appropriate host strain for industrial production. However, the direct application of this strain suffers from the transformation inefficiency and plasmid instability. Herein, we conducted genetic modifications at a serial of loci of MG1655 genome, generating a robust and universal host strain JW128 with higher transformation efficiency and plasmid stability that can be used to efficiently produce desired chemicals after introducing the corresponding synthetic pathways. Using JW128 as the host, the titer of isobutanol reached 5.76 g/L in shake-flask fermentation, and the titer of lycopene reached 1.91 g/L in test-tube fermentation, 40-fold and 5-fold higher than that of original MG1655, respectively. These results demonstrated JW128 is a promising chassis for high-level production of value-added chemicals.

AB - Escherichia coli strain K-12 MG1655 has been proposed as an appropriate host strain for industrial production. However, the direct application of this strain suffers from the transformation inefficiency and plasmid instability. Herein, we conducted genetic modifications at a serial of loci of MG1655 genome, generating a robust and universal host strain JW128 with higher transformation efficiency and plasmid stability that can be used to efficiently produce desired chemicals after introducing the corresponding synthetic pathways. Using JW128 as the host, the titer of isobutanol reached 5.76 g/L in shake-flask fermentation, and the titer of lycopene reached 1.91 g/L in test-tube fermentation, 40-fold and 5-fold higher than that of original MG1655, respectively. These results demonstrated JW128 is a promising chassis for high-level production of value-added chemicals.

KW - CRISPR‐Cas9

KW - Defense system

KW - Escherichia coli

KW - MG1655

KW - Metabolic engineering

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JO - Synthetic and Systems Biotechnology

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Converting Escherichia coli MG1655 into a chemical overproducer through inactivating defense system against exogenous DNA

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