Optimising PHBV biopolymer production in haloarchaea via CRISPRi-mediated redirection of carbon flux
Lin Lin, Chen Junyu, Mitra Ruchira, Gao Quanxiu, Cheng Feiyue, Xu Tong, Zuo Zhenqiang, Xiang Hua, Han Jing
Journal:Communications Biology
IF:6.27
DOI:10.1038/s42003-021-02541-z
PMID:34433872
Published:2021-08-25
research field:肿瘤学分子生物学药理学血液学
Abstract
The haloarchaeon Haloferax mediterranei is a potential strain for poly(3-hydroxybutyrate- co -3-hydroxyvalerate) (PHBV) production, yet the production yield and cost are the major obstacles hindering the use of this archaeal strain. Leveraging the endogenous type I-B CRISPR-Cas system in H. mediterranei , we develop a CRISPR-based interference (CRISPRi) approach that allows to regulate the metabolic pathways related to PHBV synthesis, thereby enhancing PHBV production. Our CRISPRi approach can downregulate the gene expression in a range of 25% to 98% depending upon the target region. Importantly, plasmid-mediated CRISPRi downregulation on the citrate synthase genes ( citZ and gltA ) improves the PHBV accumulation by 76.4% (from 1.78 to 3.14 g/L). When crRNA cassette integrated into chromosome, this further shortens the PHBV fermentation period and enhances PHA productivity by 165%. Our transcriptome analysis shows that repression of citrate synthase genes redirects metabolic flux from the central metabolic pathways to PHBV synthesis pathway. These findings demonstrate that the CRISPRi-based gene regulation is a transformative toolkit for fine-tuning the endogenous metabolic pathways in the archaeal system, which can be applied to not only the biopolymer production but also many other applications.
本文使用的Yeasen产品


