通过超灵敏的输入/输出控制工程化合成信号蛋白。

Engineering synthetic signaling proteins with ultrasensitive input/output control.

作者信息

Dueber John E, Mirsky Ethan A, Lim Wendell A

机构信息

Program in Biological Sciences, University of California, San Francisco, California 94158-2517, USA.

出版信息

Nat Biotechnol. 2007 Jun;25(6):660-2. doi: 10.1038/nbt1308. Epub 2007 May 21.

DOI:10.1038/nbt1308

PMID:17515908

Abstract

Many signaling proteins are built from simple, modular components, yet display highly complex signal-processing behavior. Here we explore how modular domains can be used to build an ultrasensitive switch--a nonlinear input/output function that is central to many complex biological behaviors. By systematically altering the number and affinity of modular autoinhibitory interactions, we show that we can predictably convert a simple linear signaling protein into an ultrasensitive switch.

摘要

许多信号蛋白由简单的模块化组件构成，但却表现出高度复杂的信号处理行为。在此，我们探究模块化结构域如何用于构建一个超敏感开关——一种非线性输入/输出功能，它是许多复杂生物学行为的核心。通过系统地改变模块化自抑制相互作用的数量和亲和力，我们表明可以可预测地将一个简单的线性信号蛋白转变为一个超敏感开关。

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通过超灵敏的输入/输出控制工程化合成信号蛋白。

Engineering synthetic signaling proteins with ultrasensitive input/output control.

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