Rapid, modular and reliable construction of complex mammalian gene circuits

Author(s)

Guye, Patrick; Li, Yinqing; Wroblewska, Liliana; Duportet, Xavier; Weiss, Ron

Abstract

We developed a framework for quick and reliable construction of complex gene circuits for genetically engineering mammalian cells. Our hierarchical framework is based on a novel nucleotide addressing system for defining the position of each part in an overall circuit. With this framework, we demonstrate construction of synthetic gene circuits of up to 64 kb in size comprising 11 transcription units and 33 basic parts. We show robust gene expression control of multiple transcription units by small molecule inducers in human cells with transient transfection and stable chromosomal integration of these circuits. This framework enables development of complex gene circuits for engineering mammalian cells with unprecedented speed, reliability and scalability and should have broad applicability in a variety of areas including mammalian cell fermentation, cell fate reprogramming and cell-based assays.

Date issued

2013-07

URI

http://hdl.handle.net/1721.1/80718

Department

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

Journal

Nucleic Acids Research

Publisher

Oxford University Press

Citation

Guye, P., Y. Li, L. Wroblewska, X. Duportet, and R. Weiss. “Rapid, modular and reliable construction of complex mammalian gene circuits.” Nucleic Acids Research (July 11, 2013).

Version: Final published version

ISSN

0305-1048

1362-4962