费斯特共振能量转移
DNA
合成生物学
化学
DNA纳米技术
逻辑门
动态范围
分支迁移
蛋白质工程
计算机科学
纳米技术
荧光
计算生物学
酶
算法
生物化学
物理
材料科学
DNA修复
生物
霍利迪路口
量子力学
计算机视觉
作者
Rebecca P. Chen,Daniel Blackstock,Qing Sun,Wilfred Chen
出处
期刊:Nature Chemistry
[Nature Portfolio]
日期:2018-03-09
卷期号:10 (4): 474-481
被引量:121
标识
DOI:10.1038/s41557-018-0016-9
摘要
Inspired by the remarkable ability of natural protein switches to sense and respond to a wide range of environmental queues, here we report a strategy to engineer synthetic protein switches by using DNA strand displacement to dynamically organize proteins with highly diverse and complex logic gate architectures. We show that DNA strand displacement can be used to dynamically control the spatial proximity and the corresponding fluorescence resonance energy transfer between two fluorescent proteins. Performing Boolean logic operations enabled the explicit control of protein proximity using multi-input, reversible and amplification architectures. We further demonstrate the power of this technology beyond sensing by achieving dynamic control of an enzyme cascade. Finally, we establish the utility of the approach as a synthetic computing platform that drives the dynamic reconstitution of a split enzyme for targeted prodrug activation based on the sensing of cancer-specific miRNAs.
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