CCA 反密码子在枯草芽孢杆菌的翻译内外分别指定了不同的功能。

The CCA anticodon specifies separate functions inside and outside translation in Bacillus cereus.

机构信息

Department of Microbiology, Ohio State University, Columbus, OH 43210-1292, USA.

出版信息

RNA Biol. 2009 Sep-Oct;6(4):479-87. doi: 10.4161/rna.6.4.9332. Epub 2009 Sep 23.

DOI:10.4161/rna.6.4.9332

PMID:19667754

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2784187/

Abstract

Bacillus cereus 14579 encodes two tRNAs with the CCA anticodon, tRNA(Trp) and tRNA(Other). tRNA(Trp) was separately aminoacylated by two enzymes, TrpRS1 and TrpRS2, which share only 34% similarity and display different catalytic capacities and specificities. TrpRS1 was 18-fold more proficient at aminoacylating tRNA(Trp) with Trp, while TrpRS2 more efficiently utilizes the Trp analog 5-hydroxy Trp. tRNA(Other) was not aminoacylated by either TrpRS but instead by the combined activity of LysRS1 and LysRS2, which recognized sequence elements absent from tRNA(Trp). Polysomes were found to contain tRNA(Trp), consistent with its role in translation, but not tRNA(Other) suggesting a function outside protein synthesis. Regulation of the genes encoding TrpRS1 and TrpRS2 (trpS1 and trpS2) is dependent on riboswitch-mediated recognition of the CCA anticodon, and the role of tRNA(Other) in this process was investigated. Deletion of tRNA(Other) led to up to a 50 fold drop in trpS1 expression, which resulted in the loss of differential regulation of the trpS1 and trpS2 genes in stationary phase. These findings reveal that sequence-specific interactions with a tRNA anticodon can be confined to processes outside translation, suggesting a means by which such RNAs may evolve non-coding functions.

摘要

蜡状芽孢杆菌 14579 编码两个带有 CCA 反密码子的 tRNA，即 tRNA(Trp)和 tRNA(Other)。tRNA(Trp)分别被两种酶——TrpRS1 和 TrpRS2 氨酰化，这两种酶仅具有 34%的相似性，表现出不同的催化能力和特异性。TrpRS1 对 Trp 氨酰化 tRNA(Trp)的效率高 18 倍，而 TrpRS2 则更有效地利用色氨酸类似物 5-羟基色氨酸。tRNA(Other)既不能被 TrpRS1 也不能被 TrpRS2 氨酰化，而是由 LysRS1 和 LysRS2 的联合活性氨酰化，LysRS1 和 LysRS2 识别的序列元件不存在于 tRNA(Trp)中。多核糖体中含有 tRNA(Trp)，与其在翻译中的作用一致，但不含有 tRNA(Other)，表明其在蛋白质合成之外具有功能。TrpRS1 和 TrpRS2（trpS1 和 trpS2）基因的表达受到核糖体开关识别 CCA 反密码子的调节，研究了 tRNA(Other)在这个过程中的作用。缺失 tRNA(Other)导致 trpS1 表达下降 50 倍，导致在静止期 trpS1 和 trpS2 基因的差异调节丧失。这些发现表明，与 tRNA 反密码子的序列特异性相互作用可以局限于翻译以外的过程，这表明这些 RNA 可能通过这种方式进化出非编码功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1ca5/2784187/a5d897190ff5/nihms155021f1.jpg

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