Synthesizing a Novel Genetic Sequential Logic Circuit: a Push-on Push-off Switch

Overview

Journal Mol Syst Biol

Specialty Molecular Biology

Date 2010 Mar 10

PMID 20212522

Citations 58

Authors

Chunbo Lou

Xili Liu

Ming Ni

Yiqi Huang

Qiushi Huang

Longwen Huang

Lingli Jiang

Dan Lu

Mingcong Wang

Chang Liu

Daizhuo Chen

Chongyi Chen

Xiaoyue Chen

Le Yang

Haisu Ma

Jianguo Chen

Qi Ouyang

Affiliations

Soon will be listed here.

Abstract

Design and synthesis of basic functional circuits are the fundamental tasks of synthetic biologists. Before it is possible to engineer higher-order genetic networks that can perform complex functions, a toolkit of basic devices must be developed. Among those devices, sequential logic circuits are expected to be the foundation of the genetic information-processing systems. In this study, we report the design and construction of a genetic sequential logic circuit in Escherichia coli. It can generate different outputs in response to the same input signal on the basis of its internal state, and 'memorize' the output. The circuit is composed of two parts: (1) a bistable switch memory module and (2) a double-repressed promoter NOR gate module. The two modules were individually rationally designed, and they were coupled together by fine-tuning the interconnecting parts through directed evolution. After fine-tuning, the circuit could be repeatedly, alternatively triggered by the same input signal; it functions as a push-on push-off switch.

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