Expanded synthetic small regulatory RNA expression platforms for rapid and multiplex gene expression knockdown
- Authors
- Yang, Dongsoo; Yoo, Seung Min; Gu, Changdai; Ryu, Jae Yong; Lee, Jae Eun; Lee, Sang Yup
- Issue Date
- Jul-2019
- Publisher
- Academic Press Inc.
- Keywords
- Escherichia coli; High-throughput screening; Metabolic engineering; Plasmid compatibility; Small regulatory RNA
- Citation
- Metabolic Engineering, v.54, pp 180 - 190
- Pages
- 11
- Journal Title
- Metabolic Engineering
- Volume
- 54
- Start Page
- 180
- End Page
- 190
- URI
- https://scholarworks.bwise.kr/cau/handle/2019.sw.cau/26376
- DOI
- 10.1016/j.ymben.2019.04.003
- ISSN
- 1096-7176
1096-7184
- Abstract
- Synthetic small regulatory RNA (sRNA) can efficiently downregulate target gene expression at translational level in metabolic engineering, but cannot be used in engineered strain already having incompatible plasmid(s). To address this problem and make the sRNA gene expression modulation platform universally applicable, we report the development and applications of expanded synthetic sRNA expression platforms for rapid, multiplexed and genome-scale target gene knockdown in engineered Escherichia coli. As proof-of-concept, high performance strains capable of producing L-proline (54.1 g l −1 ) and L-threonine (22.9 g l −1 ) are rapidly developed by combinatorial knockdown of up to three genes via one-step co-transformation of sRNA expression vectors. Furthermore, a genome-scale sRNA library targeting 1,858 E. coli genes is employed to construct crude violacein (5.19 g l −1 ) and indigo (135 mg l −1 ) producers by high-throughput colorimetric screening. These examples demonstrate that the expanded sRNA expression vectors developed here enables rapid development of chemical overproducers regardless of plasmid compatibility. © 2019 International Metabolic Engineering Society
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