核糖核酸酶 P:终其一生,关键钥匙寻其锁。
RNase P: at last, the key finds its lock.
机构信息
Architecture et Réactivité de l’ARN, Institut de Biologie Moléculaire du CNRS, Université de Strasbourg, 67084 Strasbourg Cedex, France.
出版信息
RNA. 2011 Sep;17(9):1615-8. doi: 10.1261/rna.2841511. Epub 2011 Jul 29.
Abstract
Apart from the ribosome, the crystal structure of the bacterial RNase P in complex with a tRNA, reported by Reiter and colleagues recently, constitutes the first example of a multiple turnover RNA enzyme. Except in rare exceptions, RNase P is ubiquitous and, like the ribosome, is older than the initial branch point of the phylogenetic tree. Importantly, the structure shows how the RNA and the protein moieties cooperate to process the pre-tRNA substrates. The catalytic site comprises some critical RNA residues spread over the secondary structure but gathered in a compact volume next to the protein, which helps recognize and orient the substrate. The discussion here outlines some important aspects of that crystal structure, some of which could apply to RNA molecules in general.
摘要
除核糖体外,最近 Reiter 等人报道的细菌 RNase P 与 tRNA 复合物的晶体结构,构成了首个多轮次 RNA 酶的例子。除了罕见的例外,RNase P 无处不在,并且与核糖体一样,比系统发育树的初始分支点更早出现。重要的是,该结构展示了 RNA 和蛋白质部分如何合作处理前 tRNA 底物。催化位点包含一些关键的 RNA 残基,分布在二级结构中,但聚集在靠近蛋白质的紧凑体积中,这有助于识别和定向底物。本文概述了该晶体结构的一些重要方面,其中一些可能适用于一般的 RNA 分子。
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