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@proceedings{58687, author = {Těšina, Petr}, booktitle = {Protein synthesis and translational control}, keywords = {translation control; eIF5A; Rqc2; Ltn1}, language = {eng}, title = {Molecular basis of eIF5A-dependent CAT tailing in eukaryotic ribosome-associated quality control}, url = {https://www.embl.org/about/info/course-and-conference-office/events/trc23-01/}, year = {2023} }
TY - CONF ID - 58687 AU - Těšina, Petr PY - 2023 TI - Molecular basis of eIF5A-dependent CAT tailing in eukaryotic ribosome-associated quality control KW - translation control KW - eIF5A KW - Rqc2 KW - Ltn1 UR - https://www.embl.org/about/info/course-and-conference-office/events/trc23-01/ N2 - Ribosome-associated quality control (RQC) is a conserved process degrading potentially toxic truncated nascent peptides whose malfunction underlies neurodegeneration and proteostasis decline in aging. During RQC, dissociation of stalled ribosomes is followed by elongation of the nascent peptide with alanine and thre- onine residues, driven by Rqc2 independently of mRNA, the small ribosomal subunit and guanosine triphos- phate (GTP)-hydrolyzing factors. The resulting CAT tails (carboxy-terminal tails) and ubiquitination by Ltn1 mark nascent peptides for proteasomal degradation. Here we present ten cryogenic electron microscopy (cryo-EM) structures, revealing the mechanistic basis of individual steps of the CAT tailing cycle covering initiation, decoding, peptidyl transfer, and tRNA translocation. We discovered eIF5A as a crucial eukaryotic RQC factor enabling peptidyl transfer. Moreover, we observed dynamic behavior of RQC factors and tRNAs allowing for processivity of the CAT tailing cycle without additional energy input. Together, these results elucidate key differences as well as common principles between CAT tailing and canonical translation. ER -
TĚŠINA, Petr. Molecular basis of eIF5A-dependent CAT tailing in eukaryotic ribosome-associated quality control. In \textit{Protein synthesis and translational control}. 2023.
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