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Engineered heterologous FPP synthases-mediated Z,E-FPP synthesis in E. coli
- Authors
- Wang, Chonglong; Zhou, Jia; Jang, Hui-Jeong; Yoon, Sang-Hwal; Kim, Jae-Yean; Lee, Seung-Goo; Choi, Eui-Sung; Kim, Seon-Won
- Issue Date
- Jul-2013
- Publisher
- Academic Press
- Keywords
- FPP synthase; Z,E-FPP; Z,E-Farnesol; Protein fusion; Sesquiterpene
- Citation
- Metabolic Engineering, v.18, pp 53 - 59
- Pages
- 7
- Indexed
- SCIE
SCOPUS
- Journal Title
- Metabolic Engineering
- Volume
- 18
- Start Page
- 53
- End Page
- 59
- ISSN
- 1096-7176
1096-7184
- Abstract
- Production of Z-type farnesyl diphosphate (FPP) has not been repotted in Escherichia coli. Here we present the fusion enzyme (ILRv) of E. coli E,E-FPP synthase (IspA) and Mycobacterium tuberculosis Z,E-FPP synthase (Rv1086), which can produce primarily Z,E-FPP rather than E,E-FPP, the predominant stereoisomer found in most organisms. Z,E-farnesol (FOH) was produced from E. coli harboring the bottom portion of the MVA pathway and the fusion FPP synthase (ILRv) at a titer of 115.6 mg/L in 2 YT medium containing 1% (v/v) glycerol as a carbon source and 5 mM mevalonate. The Z,E-FOH production was improved by 15-fold, compared with 7.7 mg/L obtained from the co-overexpression of separate IspA and Rv1086. The Z,E-FPP was not metabolized in native metabolic pathways of E. coli. It would be of interest to produce Z,E-FPP derived sesquiterpenes from recombinant E. coli due to no loss of Z,E-FPP substrate in endogenous metabolism of the host strain. (C) 2013 Elsevier Inc. All rights reserved.
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