Skip to content. | Skip to navigation

Personal tools

Sections
You are here: Home / Teams / Complexity, plasticity, and functionality of miRNAs - K. Jouravleva / Publications / Translation-dependent and -independent mRNA decay occur through mutually exclusive pathways defined by ribosome density during T cell activation

Translation-dependent and -independent mRNA decay occur through mutually exclusive pathways defined by ribosome density during T cell activation

B. C Mercier, E. Labaronne, D. Cluet, L. Guiguettaz, N. Fontrodona, A. Bicknell, A. Corbin, M. Wencker, F. Aube, L. Modolo, K. Jouravleva, D. Auboeuf, M. J Moore, and E. P Ricci (2024)

Genome Res, 34(3):394–409.

T cells. Our results indicate that most cellular transcripts are decayed to some extent in a translation-dependent manner. Our analysis further identifies the length of untranslated regions, the density of ribosomes, and GC3 content as important determinants of TDD magnitude. Consistently, all transcripts that undergo changes in ribosome density within their coding sequence upon T cell activation display a corresponding change in their TDD level. Moreover, we reveal a dynamic modulation in the relationship between GC3 content and TDD upon T cell activation, with a reversal in the impact of GC3- and AU3-rich codons. Altogether, our data show a strong and dynamic interconnection between mRNA translation and decay in mammalian primary cells.

Document Actions