大肠杆菌50S核糖体亚基的蛋白质和RNA组分之间的协同相互作用。

Cooperative interactions among protein and RNA components of the 50S ribosomal subunit of Escherichia coli.

作者信息

Spierer P, Wang C C, Marsh T L, Zimmermann R A

出版信息

Nucleic Acids Res. 1979 Apr;6(4):1669-82. doi: 10.1093/nar/6.4.1669.

DOI:10.1093/nar/6.4.1669

PMID:109811

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC327799/

Abstract

Copperative interactions among constituents of the 50S ribosomal subunit of Escherichia coli have been analyzed in order to elucidate its assembly and structural organization. Proteins L5 and L18 were shown to be necessary and sufficient to effect the association of the 5S and 23S RNAs into a quaternary complex that contains equimolar amounts of all four components. Measurement of diffusion constants by laser light scattering revealed that integration of the 5S RNA induced the 23S RNA to adopt a somewhat more open conformation. An investigation of relationships among proteins associated with the central and 3' portions of the 23S RNA demonstrated that attachment of L5, L10 + L11, and L28 depends upon the RNA-binding proteins L16, L2, and L1 + L3 + L6, respectively, and that L2 interacts with the central segment of the 23S RNA. These data, as well as the results of others, have been used to construct a scheme that depicts both direct and indirect associations of the 5S RNA, the 23S RNA, and over two-thirds of the subunit proteins. The 5' third of the 23S RNA apparently organizes the proteins required to nucleate essential reactions, whereas a region within 500 to 1500 bases of its 3' terminus is associated primarily with proteins involved in the major functional activities of the 50S ribosomal particle.

摘要

为阐明大肠杆菌50S核糖体亚基的组装和结构组织，对其组成成分之间的协同相互作用进行了分析。已证明蛋白质L5和L18对于使5S和23S RNA缔合成一种包含等摩尔量所有四种组分的四级复合物是必要且充分的。通过激光散射测量扩散常数表明，5S RNA的整合诱导23S RNA采取一种更为开放的构象。对与23S RNA的中央部分和3'部分相关的蛋白质之间关系的研究表明，L5、L10 + L11和L28的附着分别取决于RNA结合蛋白L16、L2和L1 + L3 + L6，并且L2与23S RNA的中央片段相互作用。这些数据以及其他研究结果已被用于构建一个示意图，该示意图描绘了5S RNA、23S RNA以及超过三分之二的亚基蛋白质的直接和间接关联。23S RNA的5'端三分之一显然组织了引发关键反应所需的蛋白质，而其3'端500至1500个碱基内的一个区域主要与参与50S核糖体颗粒主要功能活动的蛋白质相关联。

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本文引用的文献

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