Communication between noncontacting macromolecules.

Jens Völker, Kenneth J Breslauer
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引用次数: 25

Abstract

Molecular interactions are the language that molecules use to communicate recognition, binding, and regulation, events central to biological control mechanisms. Traditionally, such interactions involve direct, atom-to-atom, noncovalent contacts, or indirect contacts bridged by relatively fixed solvent molecules. Here we discuss a third class of molecular communication that, to date, has received less experimental attention, namely solvent-mediated communication between noncontacting macromolecules. This form of communication can be understood in terms of fundamental, well-established principles (coupled equilibria and linkage thermodynamics) that govern interactions between individual polymers and their solutions. In contrast to simple solutions used in laboratory studies, biological systems contain a multitude of nominally noninteracting biopolymers within the same solution environment. The exquisite control of biological function requires some form of communication between many of these solution components, even in the absence of direct and/or indirect contacts. Such communication must be considered when describing potential mechanisms of biological regulation.

非接触大分子之间的通信。
分子相互作用是分子用来交流识别、结合和调节的语言,是生物控制机制的核心事件。传统上,这种相互作用包括直接的、原子对原子的、非共价的接触,或由相对固定的溶剂分子桥接的间接接触。在这里,我们讨论第三类分子通信,迄今为止,已经收到较少的实验关注,即溶剂介导的非接触大分子之间的通信。这种形式的交流可以用基本的、公认的原理(耦合平衡和链接热力学)来理解,这些原理控制着单个聚合物及其溶液之间的相互作用。与实验室研究中使用的简单溶液相反,生物系统在相同的溶液环境中包含大量名义上不相互作用的生物聚合物。生物功能的精确控制需要在许多这些溶液组分之间进行某种形式的交流,即使没有直接和/或间接的接触。在描述生物调控的潜在机制时,必须考虑到这种交流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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