从“简单”的dna -蛋白质相互作用到基因表达的大分子机器。

Peter H von Hippel
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引用次数: 111

摘要

从单个蛋白质和DNA组分的结构和折叠、它们在复杂组装过程中的构象重排的热力学和动力学,以及包括DNA基因组在内的最终组装的序列特异性和识别相互作用的分子基础开始,我们目前对“基因表达的大分子机器”的结构和组装的想法的物理化学概念得到了发展。本文还考虑了降维扩散在大分子机器组件组装动力学中的作用,并将扩散驱动的反应与ATP结合和水解驱动的反应进行了比较,以及与高等生物中染色质重排和信号转导网络修饰相关的特定共价化学修饰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
From "simple" DNA-protein interactions to the macromolecular machines of gene expression.

The physicochemical concepts that underlie our present ideas on the structure and assembly of the "macromolecular machines of gene expression" are developed, starting with the structure and folding of the individual protein and DNA components, the thermodynamics and kinetics of their conformational rearrangements during complex assembly, and the molecular basis of the sequence specificity and recognition interactions of the final assemblies that include the DNA genome. The role of diffusion in reduced dimensions in the kinetics of the assembly of macromolecular machines from their components is also considered, and diffusion-driven reactions are compared with those fueled by ATP binding and hydrolysis, as well as by the specific covalent chemical modifications involved in rearranging chromatin and modifying signal transduction networks in higher organisms.

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