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体内核糖核酸酶P RNA的铅(II)切割分析

Lead(II) cleavage analysis of RNase P RNA in vivo.

作者信息

Lindell Magnus, Brännvall Mathias, Wagner E Gerhart H, Kirsebom Leif A

机构信息

Department of Cell and Molecular Biology, Uppsala University, Box 596, S-75124 Uppsala, Sweden.

出版信息

RNA. 2005 Sep;11(9):1348-54. doi: 10.1261/rna.2590605. Epub 2005 Jul 25.

DOI:10.1261/rna.2590605
PMID:16043496
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1370818/
Abstract

The overall conformation of M1 RNA, the catalytic RNA subunit of RNase P in Escherichia coli, was analyzed in vivo and, in the presence of the C5 protein subunit, in vitro by lead(II) acetate probing. The partial cleavage patterns obtained are congruent with previous structure mapping performed in vitro. Most of the known major and minor cleavages in M1 RNA were supported and could be mapped onto a secondary structure model. The data obtained indicate that C5 has only minor effects on the overall structure of the RNA subunit. The similar cleavage patterns obtained in vitro and in vivo furthermore suggest that the intracellular environment does not greatly alter the overall conformation of M1 RNA within the holoenzyme complex. Moreover, our data indicate that M1 RNA in vivo is present in at least two states-the major fraction is bound to tRNA substrates and a minor fraction is substrate free. Finally, both in this and previous work we found that lead(II) probing data from in vivo experiments conducted on longer RNAs (tmRNA and M1 RNA) generally gives superior resolution compared to parallel in vitro experiments. This may reflect the absence of alternative conformers present in vitro and the more natural state of these RNAs in the cell due to proper, co-transcriptional folding pathways and possibly the presence of RNA chaperones.

摘要

通过乙酸铅探测法,在体内以及在C5蛋白质亚基存在的体外条件下,对大肠杆菌核糖核酸酶P的催化性RNA亚基M1 RNA的整体构象进行了分析。所获得的部分切割模式与先前在体外进行的结构测绘结果一致。M1 RNA中大多数已知的主要和次要切割位点都得到了证实,并可映射到二级结构模型上。所获得的数据表明,C5对RNA亚基的整体结构只有微小影响。此外,在体外和体内获得的相似切割模式表明,细胞内环境不会极大地改变全酶复合物中M1 RNA的整体构象。而且,我们的数据表明,体内的M1 RNA至少以两种状态存在——主要部分与tRNA底物结合,次要部分无底物。最后,在这项工作以及之前的工作中,我们都发现,与平行的体外实验相比,对较长RNA(转移信使RNA和M1 RNA)进行体内实验所得到的乙酸铅探测数据通常具有更高的分辨率。这可能反映出体外不存在其他构象异构体,以及由于适当的共转录折叠途径和可能存在的RNA伴侣,这些RNA在细胞中处于更自然的状态。

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