Specific Gene Repression by CRISPRi System Transferred through Bacterial Conjugation

Weiyue Ji(Howard Hughes Medical Institute), Derrick Lee(Howard Hughes Medical Institute), Eric B. Wong(Howard Hughes Medical Institute), Priyanka Dadlani(Howard Hughes Medical Institute), David Dinh(Howard Hughes Medical Institute), Verna Huang(Howard Hughes Medical Institute), Kendall Kearns(Howard Hughes Medical Institute), Sherry Teng(Howard Hughes Medical Institute), Susan Chen(Howard Hughes Medical Institute), John Haliburton(Howard Hughes Medical Institute), Graham Heimberg(Howard Hughes Medical Institute), Benjamin M. Heineike(Howard Hughes Medical Institute), Anusuya Ramasubramanian(Howard Hughes Medical Institute), Thomas Stevens(Howard Hughes Medical Institute), Kara J. Helmke(Howard Hughes Medical Institute), Veronica Zepeda(Howard Hughes Medical Institute), Lei S. Qi(Howard Hughes Medical Institute), Wendell A. Lim(Howard Hughes Medical Institute)
ACS Synthetic Biology
November 20, 2014
10.1021/sb500036q
Cited by 60Open Access
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Abstract

In microbial communities, bacterial populations are commonly controlled using indiscriminate, broad range antibiotics. There are few ways to target specific strains effectively without disrupting the entire microbiome and local environment. Here, we use conjugation, a natural DNA horizontal transfer process among bacterial species, to deliver an engineered CRISPR interference (CRISPRi) system for targeting specific genes in recipient Escherichia coli cells. We show that delivery of the CRISPRi system is successful and can specifically repress a reporter gene in recipient cells, thereby establishing a new tool for gene regulation across bacterial cells and potentially for bacterial population control.

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