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精确测定30S核糖体亚基中16S核糖体RNA的紫外线诱导交联。

Exact determination of UV-induced crosslinks in 16S ribosomal RNA in 30S ribosomal subunits.

作者信息

Wilms C, Noah J W, Zhong D, Wollenzien P

机构信息

Department of Biochemistry, North Carolina State University, Raleigh 27695-7622, USA.

出版信息

RNA. 1997 Jun;3(6):602-12.

PMID:9174095
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1369509/
Abstract

Escherichia coli 30S ribosomal subunits were UV-irradiated to induce intramolecular crosslinks in the 16S rRNA. Intact 16S rRNA was purified and subjected to gel electrophoresis, under denaturing conditions, to separate molecules on the basis of the crosslinked loop size. Molecules separated this way were enriched for specific crosslinks and could be analyzed by the reverse transcription arrest assay to determine exact crosslinking sites. Thirteen crosslinking sites have been identified at single nucleotide resolution. Of these, eight are within or adjacent to secondary structure elements: one of these (C582 x G760) involves an interaction between nucleotides within an interior loop, one (C1402 x X1501) involves an interaction between nucleosides in adjacent base pairs, and the others involve interactions between nucleotides that are within junction regions (A441 x G494, U562 x U884, C934 x U1345, and U991 x U1212) or are interactions between nucleotides (C54 x A353 and U1052 x C1200) that somehow cross known base pairs. Five other crosslinks connect sites distant in the secondary structure and provide global constraints for the arrangement of RNA regions within RNA domains I and II (U244 x G894, G894 x A1468, C967 x C1400) and within domain III (U1126 x C1281 and A1093 x G1182). These crosslinks, known at single-nucleotide resolution, are useful in the prediction of local RNA regions, as well as the global structure.

摘要

将大肠杆菌30S核糖体亚基进行紫外线照射,以诱导16S核糖体RNA(rRNA)发生分子内交联。纯化完整的16S rRNA,并在变性条件下进行凝胶电泳,根据交联环的大小分离分子。以这种方式分离的分子富含特定的交联,可通过逆转录终止试验进行分析,以确定确切的交联位点。已在单核苷酸分辨率下鉴定出13个交联位点。其中,8个位于二级结构元件内部或附近:其中一个(C582×G760)涉及内环内核苷酸之间的相互作用,一个(C1402×X1501)涉及相邻碱基对中核苷之间的相互作用,其他的涉及连接区域内核苷酸之间的相互作用(A441×G494、U562×U884、C934×U1345和U991×U1212),或者是核苷酸之间的相互作用(C54×A353和U1052×C1200),这些相互作用以某种方式跨越已知的碱基对。另外5个交联连接二级结构中距离较远的位点,并为RNA结构域I和II内(U244×G894、G894×A1468、C967×C1400)以及结构域III内(U1126×C1281和A1093×G1182)的RNA区域排列提供全局限制。这些在单核苷酸分辨率下已知的交联,在预测局部RNA区域以及全局结构方面很有用。