Modular construction of mammalian gene circuits using TALE transcriptional repressors

Author(s)

Li, Yinqing; Jiang, Yun; Chen, He; Liao, Weixi; Li, Zhihua; Weiss, Ron; Xie, Zhen; ... Show more Show less

Abstract

An important goal of synthetic biology is the rational design and predictable implementation of synthetic gene circuits using standardized and interchangeable parts. However, engineering of complex circuits in mammalian cells is currently limited by the availability of well-characterized and orthogonal transcriptional repressors. Here, we introduce a library of 26 reversible transcription activator–like effector repressors (TALERs) that bind newly designed hybrid promoters and exert transcriptional repression through steric hindrance of key transcriptional initiation elements. We demonstrate that using the input-output transfer curves of our TALERs enables accurate prediction of the behavior of modularly assembled TALER cascade and switch circuits. We also show that TALER switches using feedback regulation exhibit improved accuracy for microRNA-based HeLa cancer cell classification versus HEK293 cells. Our TALER library is a valuable toolkit for modular engineering of synthetic circuits, enabling programmable manipulation of mammalian cells and helping elucidate design principles of coupled transcriptional and microRNA-mediated post-transcriptional regulation.

Date issued

2015-02

URI

http://hdl.handle.net/1721.1/99532

Department

Massachusetts Institute of Technology. Department of Biological Engineering
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Journal

Nature Chemical Biology

Publisher

Nature Publishing Group

Citation

Li, Yinqing, Yun Jiang, He Chen, Weixi Liao, Zhihua Li, Ron Weiss, and Zhen Xie. “Modular Construction of Mammalian Gene Circuits Using TALE Transcriptional Repressors.” Nat Chem Biol 11, no. 3 (February 2, 2015): 207–213.

Version: Author's final manuscript

ISSN

1552-4450

1552-4469