核糖体蛋白结合位点在16S核糖体RNA上的定位

Location of ribosomal protein binding sites on 16S ribosomal RNA.

作者信息

Zimmermann R A, Muto A, Fellner P, Ehresmann C, Branlant C

出版信息

Proc Natl Acad Sci U S A. 1972 May;69(5):1282-6. doi: 10.1073/pnas.69.5.1282.

DOI:10.1073/pnas.69.5.1282

PMID:4556459

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC426682/

Abstract

The distribution of ribosomal protein binding sites on the 16S ribosomal RNA molecule has been analyzed by limited ribonuclease hydrolysis of RNA-protein complexes, as well as by the interaction of individual proteins with RNA fragments purified from partial enzymatic digests. Of the six 30S subunit proteins known to interact directly with 16S RNA, proteins S4, S8, S15, S20, and, probably, S13 bind within a fragment produced by T(1) RNase (12S RNA) that comprises some 900 nucleotides and covers almost the entire 5'-terminal half of the 16S molecule. A fragment of 500-600 nucleotides (8S RNA) that is contiguous with 12S RNA and arises from the 3'-terminal portion of the 16S molecule is believed to contain the binding site for protein S7. Protein S15 interacts specifically with a sequence of about 135 nucleotides (4S RNA) that derives from 12S RNA after more extensive hydrolysis. Protein S4, but none of the other ribosomal proteins, binds to a 500-nucleotide fragment (9S RNA), generated by pancreatic RNase, that lies at the 5'-terminus of 16S RNA and is completely overlapped by the 12S fragment. A preliminary map of the binding sites is presented.

摘要

通过对RNA-蛋白质复合物进行有限的核糖核酸酶水解，以及通过单个蛋白质与从部分酶促消化中纯化的RNA片段的相互作用，分析了核糖体蛋白结合位点在16S核糖体RNA分子上的分布。在已知直接与16S RNA相互作用的六种30S亚基蛋白中，蛋白S4、S8、S15、S20以及可能的蛋白S13结合在由T(1)核糖核酸酶产生的一个片段（12S RNA）内，该片段包含约900个核苷酸，几乎覆盖了16S分子整个5'-末端的一半。与12S RNA相邻且来自16S分子3'-末端部分的一个500 - 600个核苷酸的片段（8S RNA）被认为包含蛋白S7的结合位点。蛋白S15与一段约135个核苷酸的序列（4S RNA）特异性相互作用，该序列是在更广泛水解后从12S RNA衍生而来的。蛋白S4，但其他核糖体蛋白均不与由胰核糖核酸酶产生的一个500个核苷酸的片段（9S RNA）结合，该片段位于16S RNA的5'-末端，并且完全被12S片段重叠。本文给出了结合位点的初步图谱。

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本文引用的文献

A two-dimensional fractionation procedure for radioactive nucleotides.一种用于放射性核苷酸的二维分级分离程序。

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Biochimie. 1971;53(5):573-83. doi: 10.1016/s0300-9084(71)80013-5.

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