Puf3 contributes to changes in mRNA solubility, translation elongation dynamics at rare arginine codons and loss of protein homeostasis in cells lacking Not4
- Léna Audebert1,
- George E Allen1,
- Siyu Chen1,
- Olesya O Panasenko1,
- Susanne Huch2,
- Christine Polte3,
- Zoya O Ignatova4,
- Vicent Pelechano2 and
- Martine A Collart1,5
- 1 University of Geneva, Faculty of Medicine;
- 2 SciLifeLab, Department of Microbiology, Tumor and Cell Biology, Karolinska Institutet;
- 3 Biochemistry and Molecular Biology, University of Hamburg;
- 4 University of Hamburg
- ↵* Corresponding author; email: martine.collart{at}unige.ch
Abstract
The Not proteins of the Ccr4-Not complex regulate translation elongation dynamics, essential for proper folding and assembly of new proteins. In yeast, ribosomes with non-optimal codons in the A-site are enriched within the pool of ribosomes bound by Not4 and Not5. Such ribosomes accumulate in cells lacking Not4 or Not5 that show defects in co-translational assembly and aggregation of new proteins. Recently we observed that depletion of Not1 and Not4 inversely regulate changes in mRNA solubility, correlating with inverse codon-specific changes in A-site ribosome dwelling occupancies (RDOs). Here we describe that mRNAs less soluble upon Not4 depletion are enriched for targets of the RNA-binding protein Puf3. We determine that Puf3 contributes to differential changes of A-site RDOs upon Not1 and Not4 depletion, in particular at rare arginine codons, and it contributes to changes in mRNA solubility in not4Δ Moreover, deletion of Puf3 suppresses temperature sensitivity and protein aggregation in the not4Δ strain, while overexpression of Puf3 is toxic. Interestingly the Puf3 interactome is altered in not4Δ. Taken together, our results associate alterations in Puf3 to not4 mutant phenotypes, in particular to changes in translation elongation dynamics and protein aggregation.
Keywords
- Not4 and Puf3
- Ribosome dwelling and translation elongation
- mRNA solubility
- protein homeostasis
- rare arginine codons
- Received January 14, 2026.
- Accepted June 2, 2026.
- Published by Cold Spring Harbor Laboratory Press for the RNA Society
This article, published in RNA, is available under a Creative Commons License (Attribution 4.0 International), as described at http://creativecommons.org/licenses/by/4.0/.










