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硒代半胱氨酸插入序列(SECIS)RNA在大肠杆菌基因表达翻译调控中的作用。

The function of SECIS RNA in translational control of gene expression in Escherichia coli.

作者信息

Thanbichler Martin, Böck August

机构信息

Department of Biology I, Microbiology, University of Munich, Maria-Ward-Strasse 1a, D-80638 Munich, Germany.

出版信息

EMBO J. 2002 Dec 16;21(24):6925-34. doi: 10.1093/emboj/cdf673.

DOI:10.1093/emboj/cdf673
PMID:12486013
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC139081/
Abstract

The incorporation of selenocysteine into proteins is directed by specific UGA codons and mRNA secondary structures, designated SECIS elements. In bacteria, these elements are positioned within the reading frame of selenoprotein mRNAs immediately downstream of the triplet coding for selenocysteine, and they tether a complex of the selenocysteine-specific elongation factor SelB, GTP and selenocysteyl-tRNA(Sec) to the site of UGA decoding. A SECIS-like structure was identified in the 5' non-translated region of the selAB transcript, encoding selenocysteine synthase and SelB. It specifically binds to SelB and the formation of a SelB.GTP.selenocysteyl-tRNA(Sec) complex on the SECIS-like element represses expression of the downstream gene. This effect is abolished by mutations preventing formation of the complex. The regulatory pattern observed correlated with the levels of sel gene products. As quaternary complex formation on the SECIS-like element did not influence the transcription rate and only slightly reduced the level of selAB mRNA, it was concluded that the structure is involved in regulating translation initiation efficiency, thereby coupling selenocysteine biosynthesis to the availability of the trace element selenium.

摘要

硒代半胱氨酸掺入蛋白质是由特定的UGA密码子和mRNA二级结构(即硒代半胱氨酸插入序列元件,SECIS元件)指导的。在细菌中,这些元件位于硒蛋白mRNA的阅读框内,紧挨着编码硒代半胱氨酸的三联体下游,它们将硒代半胱氨酸特异性延伸因子SelB、GTP和硒代半胱氨酰 - tRNA(Sec)的复合物拴系到UGA解码位点。在编码硒代半胱氨酸合成酶和SelB的selAB转录本的5'非翻译区鉴定出了一种类似SECIS的结构。它特异性结合SelB,并且在类似SECIS元件上形成SelB.GTP.硒代半胱氨酰 - tRNA(Sec)复合物会抑制下游基因的表达。阻止复合物形成的突变消除了这种效应。观察到的调控模式与sel基因产物的水平相关。由于在类似SECIS元件上形成四元复合物不影响转录速率,且仅略微降低selAB mRNA的水平,因此得出结论,该结构参与调节翻译起始效率,从而将硒代半胱氨酸的生物合成与微量元素硒的可用性联系起来。

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