A bacterial regulatory uORF senses multiple classes of ribosome-targeting antibiotics.

IF 6.4 1区生物学 Q1 BIOLOGY

eLife Pub Date : 2025-05-29 DOI:10.7554/eLife.101217

Gabriele Baniulyte, Joseph T Wade

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引用次数: 0

Abstract

Expression of many bacterial genes is regulated by cis- and trans-acting elements in their 5' upstream regions (URs). Cis-acting regulatory elements in URs include upstream ORFs (uORFs), short ORFs that sense translation stress that manifests as ribosomes stalling at specific codons within the uORF. Here, we show that the transcript encoding the Escherichia coli TopAI-YjhQ toxin-antitoxin system is regulated by a uORF that we name 'toiL'. We propose that in the absence of translation stress, a secondary structure in the UR represses translation of the topAI transcript by occluding the ribosome-binding site. Translation repression of topAI leads to premature Rho-dependent transcription termination within the topAI ORF. At least five different classes of ribosome-targeting antibiotics relieve repression of topAI. Our data suggest that these antibiotics function by stalling ribosomes at different positions within toiL, thereby altering the RNA secondary structure around the topAI ribosome-binding site. Thus, toiL is a multipurpose uORF that can respond to a wide variety of translation stresses.

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细菌调节的uORF感知多种类型的核糖体靶向抗生素。

许多细菌基因的表达受其5'上游区域（URs）的顺式和反式元件的调控。URs中的顺式调控元件包括上游orf (uORF)，这是一种感知翻译压力的短orf，表现为核糖体在uORF内特定密码子处停滞。在这里，我们发现编码大肠杆菌TopAI-YjhQ毒素-抗毒素系统的转录本受我们命名为“辛劳”的uORF调节。我们认为，在没有翻译压力的情况下，UR中的二级结构通过封闭核糖体结合位点来抑制topAI转录物的翻译。翻译抑制导致topAI ORF中rho依赖性转录过早终止。至少有五种不同类型的核糖体靶向抗生素可以缓解对topAI的抑制。我们的数据表明，这些抗生素的作用是通过在toiL内的不同位置停止核糖体，从而改变topAI核糖体结合位点周围的RNA二级结构。因此，toiL是一种多用途的uORF，可以响应各种翻译应力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

eLife BIOLOGY-

CiteScore

12.90

自引率

3.90%

发文量

3122

审稿时长

17 weeks

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