Litcius/Paper detail

Two modes of Cue2-mediated mRNA cleavage with distinct substrate recognition initiate no-go decay

Shota Tomomatsu, Atsuya Watanabe, Petr Těšina, Satoshi Hashimoto, Ken Ikeuchi, Sihan Li, Yoshitaka Matsuo, Roland Beckmann, Toshifumi Inada

2022Nucleic Acids Research32 citationsDOIOpen Access PDF

Abstract

Ribosome collisions are recognized by E3 ubiquitin ligase Hel2/ZNF598, leading to RQC (ribosome-associated quality control) and to endonucleolytic cleavage and degradation of the mRNA termed NGD (no-go decay). NGD in yeast requires the Cue2 endonuclease and occurs in two modes, either coupled to RQC (NGDRQC+) or RQC uncoupled (NGDRQC-). This is mediated by an unknown mechanism of substrate recognition by Cue2. Here, we show that the ubiquitin binding activity of Cue2 is required for NGDRQC- but not for NGDRQC+, and that it involves the first two N-terminal Cue domains. In contrast, Trp122 of Cue2 is crucial for NGDRQC+. Moreover, Mbf1 is required for quality controls by preventing +1 ribosome frameshifting induced by a rare codon staller. We propose that in Cue2-dependent cleavage upstream of the collided ribosomes (NGDRQC-), polyubiquitination of eS7 is recognized by two N-terminal Cue domains of Cue2. In contrast, for the cleavage within collided ribosomes (NGDRQC+), the UBA domain, Trp122 and the interaction between Mbf1 and uS3 are critical.

Topics & Concepts

RibosomeBiologyCleavage (geology)EndonucleaseUbiquitinUbiquitin ligaseMessenger RNACell biologyRibosome profilingTranslation (biology)BiophysicsRNAGeneticsDNAGenePaleontologyFracture (geology)RNA and protein synthesis mechanismsRNA Research and SplicingRNA modifications and cancer