# Yeast elongation factor homolog New1 protects a subset of mRNAs from degradation by no-go decay

**Authors:** Max Müller, Lena Sophie Tittel, Elisabeth Petfalski, Kaushik Viswanathan Iyer, Alina-Andrea Kraft, Stefan Pastore, Tamer Butto, Marie-Luise Winz

PMC · DOI: 10.1093/nar/gkag047 · 2026-01-29

## TL;DR

The yeast protein New1 prevents certain mRNAs from being degraded by a process called no-go decay, which affects essential proteins and causes growth issues when New1 is missing.

## Contribution

New1 is shown to protect specific mRNAs from no-go decay, revealing a novel role in mRNA stability and cellular growth regulation.

## Key findings

- New1 absence causes ribosome queuing and mRNA degradation via no-go decay triggered by Hel2.
- 139 target mRNAs are identified with unique structural and queuing features.
- NGD leads to downregulation of essential proteins like Pgk1 and Gpm1 in New1-deficient cells.

## Abstract

New1 is a homologue of the essential yeast translation elongation factor eEF3. Lack of New1 has been shown to induce ribosome queuing upstream of the stop codon on messenger RNAs (mRNAs) with specific C-terminal lysine and arginine codons. Here, we used ultraviolet crosslinking and analysis of complementary DNA (cDNA), long-read nanopore sequencing, and proteomics to address the consequences such queues have for the yeast cell. We show that these queues represent collisions, recognized by collision sensor Hel2, triggering mRNA degradation via canonical no-go decay (NGD). We identified 139 target mRNAs, on which decay is initiated by Cue2-mediated cleavage upstream of the stop codon. Compared to other collision-prone mRNAs, ending on the same C-terminal codons, these targets are characterized by stronger secondary structures upstream of the stop codon, longer queues, and stronger queuing signatures. Nanopore sequencing enabled characterization of NGD cleavage fragments across targets. Ultimately, NGD in the absence of New1 leads to downregulation of encoded proteins, including highly abundant and essential metabolic enzymes like Pgk1 and Gpm1, as well as translation elongation factors such as eEF1-alpha and eEF1-beta. We show that New1 protects such mRNAs from degradation by NGD and that NGD is a major determinant of the cold sensitive growth phenotype observed in NEW1 deletants.

Graphical Abstract

## Linked entities

- **Genes:** NEW1 (New1p) [NCBI Gene 855875], YWHAE (tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein epsilon) [NCBI Gene 7531], CUE2 (Cue2p) [NCBI Gene 853772], PGK1 (phosphoglycerate kinase 1) [NCBI Gene 5230], GPM1 (phosphoglycerate mutase GPM1) [NCBI Gene 853705], eEF1alpha1 (eukaryotic translation elongation factor 1 alpha 1) [NCBI Gene 36271], eEF1beta (eukaryotic translation elongation factor 1 beta) [NCBI Gene 45249]
- **Proteins:** NEW1 (New1p), YWHAE (tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein epsilon), CUE2 (Cue2p), PGK1 (phosphoglycerate kinase 1), GPM1 (phosphoglycerate mutase GPM1), eEF1alpha1 (eukaryotic translation elongation factor 1 alpha 1), eEF1beta (eukaryotic translation elongation factor 1 beta)

## Full-text entities

- **Genes:** TRNG (tRNA-Gly) [NCBI Gene 4563] {aka MTTG}, CCR4 (C-C motif chemokine receptor 4) [NCBI Gene 1233] {aka CC-CKR-4, CD194, CKR4, CMKBR4, ChemR13, HGCN:14099}, SLH1 (RNA helicase) [NCBI Gene 853187] {aka RQT2}, CUE2 (Cue2p) [NCBI Gene 853772], XRN1 (chromatin-binding exonuclease XRN1) [NCBI Gene 852702] {aka DST2, KEM1, RAR5, SEP1, SKI1}, UBP3 (mRNA-binding ubiquitin-specific protease UBP3) [NCBI Gene 856895] {aka BLM3}, SMY2 (Smy2p) [NCBI Gene 852470], CUE3 (Cue3p) [NCBI Gene 852768] {aka RQT3}, NPL3 (mRNA-binding protein NPL3) [NCBI Gene 852042] {aka MTR13, MTS1, NAB1, NOP3}, MOT2 (CCR4-NOT core ubiquitin-protein ligase subunit MOT2) [NCBI Gene 856799] {aka NOT4, SIG1}, RKR1 (ubiquitin-protein ligase RKR1) [NCBI Gene 855289] {aka LTN1}, TUB1 (alpha-tubulin TUB1) [NCBI Gene 854889], SLX1 (endonuclease) [NCBI Gene 852529], YEF3 (translation elongation factor EF-3) [NCBI Gene 850951] {aka TEF3}, ADH1 (alcohol dehydrogenase ADH1) [NCBI Gene 854068] {aka ADC1}, TDH3 (glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) TDH3) [NCBI Gene 853106] {aka GLD1, HSP35, HSP36, SSS2}, DXO1 (Dxo1p) [NCBI Gene 851976], NEW1 (New1p) [NCBI Gene 855875], SKI3 (SKI complex subunit tetratricopeptide repeat protein SKI3) [NCBI Gene 856319] {aka SKI5}, GPM1 (phosphoglycerate mutase GPM1) [NCBI Gene 853705], UBP2 (ubiquitin-specific protease UBP2) [NCBI Gene 854291], PGK1 (phosphoglycerate kinase) [NCBI Gene 850370], SCR1 (ncRNA) [NCBI Gene 9164887], HEL2 (E3 ubiquitin-protein ligase HEL2) [NCBI Gene 851859] {aka RQT1}, SYH1 (Syh1p) [NCBI Gene 855999] {aka MYR1}, RLI1 (Fe-S cluster-binding ribosome biosynthesis protein) [NCBI Gene 851665], ASC1 (40S ribosomal protein RACK1 ASC1) [NCBI Gene 855143] {aka ASU9, CPC2, NAD1}, DOM34 (ribosome dissociation factor DOM34) [NCBI Gene 855731], SNR190 (ncRNA) [NCBI Gene 9164910], HBS1 (ribosome dissociation factor GTPase HBS1) [NCBI Gene 853959], TUB3 (alpha-tubulin TUB3) [NCBI Gene 854915], TEF1 (translation elongation factor EF-1 alpha) [NCBI Gene 856195], SKI2 (SKI complex RNA helicase subunit SKI2) [NCBI Gene 851114]
- **Diseases:** C (OMIM:211750), NGD (MESH:D003731), RQT (MESH:D052582), New1 deficiency (MESH:D007153), RQC (MESH:D007174)
- **Chemicals:** cysteine (MESH:D003545), silica (MESH:D012822), acetonitrile (MESH:C032159), zirconia (MESH:C028541), Methionine (MESH:D008715), PBS (-), B (MESH:D001895), P (MESH:D010758), Peptides (MESH:D010455), nitrogen (MESH:D009584), sodium dodecyl sulfate (MESH:D012967), phenylalanine (MESH:D010649), Borate (MESH:D001881), uracil (MESH:D014498), agarose (MESH:D012685), sodium phosphate (MESH:C018279), TRP (MESH:D014364), formic acid (MESH:C030544), polyacrylamide (MESH:C016679), phenol (MESH:D019800), water (MESH:D014867), cycloheximide (MESH:D003513), asparagine (MESH:D001216), Bis-Tris (MESH:C026272), alanine (MESH:D000409), ethylenediaminetetraacetic acid (MESH:D004492), ethanol (MESH:D000431), chloroform (MESH:D002725), poly(lysine (MESH:D011107), Tween 20 (MESH:D011136), anisomycin (MESH:D000841), ammonium sulfate (MESH:D000645), ATP (MESH:D000255), acid (MESH:D000143), Poly(A) (MESH:D011061)
- **Species:** Homo sapiens (human, species) [taxon 9606], Schizosaccharomyces pombe (fission yeast, species) [taxon 4896], Escherichia coli (E. coli, species) [taxon 562], Saccharomyces cerevisiae (baker's yeast, species) [taxon 4932]
- **Mutations:** termination at stop, start to stop

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12852954/full.md

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Source: https://tomesphere.com/paper/PMC12852954