哺乳动物精子中染色质结构的模型。

A model for the structure of chromatin in mammalian sperm.

作者信息

Balhorn R

出版信息

J Cell Biol. 1982 May;93(2):298-305. doi: 10.1083/jcb.93.2.298.

DOI:10.1083/jcb.93.2.298

PMID:7096440

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2112839/

Abstract

DNA in mammalian, and most vertebrate sperm, is packaged by protamines into a highly condensed, biochemically inert form of chromatin. A model is proposed for the structure of this DNA-protamine complex which describes the site and mode of protamine binding to DNA and postulates, for the first time, specific inter- and intraprotamine interactions essential for the organization of this highly specialized chromatin. In this model, the central polyarginine segment of protamine binds in the minor groove of DNA, crosslinking and neutralizing the phosphodiester backbone of DNA while the COOH- and NH2-terminal ends of protamine participate in the formation of inter- and intraprotamine hydrogen, hydrophobic, and disulfide bonds. Each protamine segment is of sufficient length to fill one turn of DNA, and adjacent protamines are locked in place around DNA by multiple disulfide bridges. Such an arrangement generates a neutral, insoluble chromatin complex, uses all protamine sulfhydryl groups for cross linking, conserves volume, and effectively renders the chromatin invulnerable to most external influences.

摘要

在哺乳动物以及大多数脊椎动物的精子中，DNA通过鱼精蛋白被包装成一种高度浓缩、生化惰性的染色质形式。本文提出了一种DNA-鱼精蛋白复合物的结构模型，该模型描述了鱼精蛋白与DNA结合的位点和方式，并首次假定了鱼精蛋白之间以及鱼精蛋白内部特定的相互作用，这些相互作用对于这种高度特化染色质的组织至关重要。在这个模型中，鱼精蛋白的中央多聚精氨酸片段结合在DNA的小沟中，交联并中和DNA的磷酸二酯主链，而鱼精蛋白的COOH端和NH2端参与鱼精蛋白之间以及鱼精蛋白内部氢键、疏水键和二硫键的形成。每个鱼精蛋白片段的长度足以填充一圈DNA，相邻的鱼精蛋白通过多个二硫键锁定在DNA周围的位置。这样的排列产生了一种中性、不溶性的染色质复合物，利用了所有鱼精蛋白的巯基进行交联，节省了空间，并有效地使染色质免受大多数外部影响。

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