晶体管
重组酶
逻辑门
通流晶体管逻辑
计算机科学
生物
计算生物学
电气工程
遗传学
工程类
重组
基因
算法
电压
作者
J. Bonnet,Peter Yin,Monica E. Ortiz,Pakpoom Subsoontorn,Drew Endy
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2013-03-29
卷期号:340 (6132): 599-603
被引量:531
标识
DOI:10.1126/science.1232758
摘要
Organisms must process information encoded via developmental and environmental signals to survive and reproduce. Researchers have also engineered synthetic genetic logic to realize simpler, independent control of biological processes. We developed a three-terminal device architecture, termed the transcriptor, that uses bacteriophage serine integrases to control the flow of RNA polymerase along DNA. Integrase-mediated inversion or deletion of DNA encoding transcription terminators or a promoter modulates transcription rates. We realized permanent amplifying AND, NAND, OR, XOR, NOR, and XNOR gates actuated across common control signal ranges and sequential logic supporting autonomous cell-cell communication of DNA encoding distinct logic-gate states. The single-layer digital logic architecture developed here enables engineering of amplifying logic gates to control transcription rates within and across diverse organisms.
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