基于进化算法的合成生物学逻辑电路设计。

Design of synthetic biological logic circuits based on evolutionary algorithm.

机构信息

Department of Electrical Engineering, National Chung Hsing University, Taichung, Taiwan.

出版信息

IET Syst Biol. 2013 Aug 1;7(4):89-105. doi: 10.1049/iet-syb.2012.0048.

DOI:10.1049/iet-syb.2012.0048

PMID:23919952

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8687169/

Abstract

The construction of an artificial biological logic circuit using systematic strategy is recognised as one of the most important topics for the development of synthetic biology. In this study, a real-structured genetic algorithm (RSGA), which combines general advantages of the traditional real genetic algorithm with those of the structured genetic algorithm, is proposed to deal with the biological logic circuit design problem. A general model with the cis-regulatory input function and appropriate promoter activity functions is proposed to synthesise a wide variety of fundamental logic gates such as NOT, Buffer, AND, OR, NAND, NOR and XOR. The results obtained can be extended to synthesise advanced combinational and sequential logic circuits by topologically distinct connections. The resulting optimal design of these logic gates and circuits are established via the RSGA. The in silico computer-based modelling technology has been verified showing its great advantages in the purpose.

摘要

使用系统策略构建人工生物逻辑电路被认为是合成生物学发展的最重要课题之一。在这项研究中，提出了一种真正结构的遗传算法（RSGA），它结合了传统实遗传算法的一般优势和结构化遗传算法的优势，用于处理生物逻辑电路设计问题。提出了一个具有顺式调控输入函数和适当启动子活性函数的通用模型，以合成各种基本逻辑门，如 NOT、Buffer、AND、OR、NAND、NOR 和 XOR。通过拓扑上不同的连接，可以将得到的结果扩展到合成高级组合和顺序逻辑电路。通过 RSGA 建立了这些逻辑门和电路的最佳设计。基于计算机的计算机模拟技术已经得到验证，证明了它在该目的上的巨大优势。

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