RqcH and RqcP catalyze processive poly-alanine synthesis in a reconstituted ribosome-associated quality control system.

Hiraku Takada,Gemma C Atkinson,Zoya Ignatova,Victoriia Murina,Christine Polte,Vasili Hauryliuk,Caillan Crowe-Mcauliffe,Daniel N Wilson,Zhanna Yu Sidorova,Andrey L Konevega

doi:10.1093/nar/gkab589

Abstract

In the cell, stalled ribosomes are rescued through ribosome-associated protein quality-control (RQC) pathways. After splitting of the stalled ribosome, a C-terminal polyalanine ‘tail’ is added to the unfinished polypeptide attached to the tRNA on the 50S ribosomal subunit. In Bacillus subtilis, polyalanine tailing is catalyzed by the NEMF family protein RqcH, in cooperation with RqcP. However, the mechanistic details of this process remain unclear. Here we demonstrate that RqcH is responsible for tRNAAla selection during RQC elongation, whereas RqcP lacks any tRNA specificity. The ribosomal protein uL11 is crucial for RqcH, but not RqcP, recruitment to the 50S subunit, and B. subtilis lacking uL11 are RQC-deficient. Through mutational mapping, we identify critical residues within RqcH and RqcP that are important for interaction with the P-site tRNA and/or the 50S subunit. Additionally, we have reconstituted polyalanine-tailing in vitro and can demonstrate that RqcH and RqcP are necessary and sufficient for processivity in a minimal system. Moreover, the in vitro reconstituted system recapitulates our in vivo findings by reproducing the importance of conserved residues of RqcH and RqcP for functionality. Collectively, our findings provide mechanistic insight into the role of RqcH and RqcP in the bacterial RQC pathway.

Highlights

In all cells, the process of synthesizing proteins by ‘reading’ the coded instructions in mRNA is called translation, and it is carried out by the molecular machine called the ribosome
We used Electrophoretic Mobility Shift Assays (EMSAs) to study complex formation between B. subtilis RqcH – wild-type and D97A/R98A (DR) variant – and individual native deacylated tRNAs purified from B. subtilis bulk tRNA
RqcH-HTF:tRNA complexes isolated through co-IP of either wild-type or DR variant of RqcH-HTF preincubated with total B. subtilis tRNA, tBulk

Summary

Introduction

The process of synthesizing proteins by ‘reading’ the coded instructions in mRNA is called translation, and it is carried out by the molecular machine called the ribosome. The first ribosome rescue pathway to be identified in bacteria was the trans-translation system [5]. The system consists of transfer-messenger RNA (tmRNA; referred to as small stable RNA A, ssrA) that serves both as an mRNA template [6] and a tRNA mimic [7]. This RNA component of tmRNA is assisted by small protein B (SmpB) [8]. In addition to the transtranslation system, Escherichia coli possess two alternative

Methods

Results

Conclusion