| RNA splicing by the spliceosome ME Wilkinson, C Charenton, K Nagai Annual review of biochemistry 89 (1), 359-388, 2020 | 636 | 2020 |
| Prespliceosome structure provides insights into spliceosome assembly and regulation C Plaschka, PC Lin, C Charenton, K Nagai Nature 559 (7714), 419-422, 2018 | 154 | 2018 |
| Mechanism of 5ʹ splice site transfer for human spliceosome activation C Charenton, ME Wilkinson, K Nagai Science 364 (6438), 362-367, 2019 | 151 | 2019 |
| Structure of the active form of Dcp1–Dcp2 decapping enzyme bound to m7GDP and its Edc3 activator C Charenton, V Taverniti, C Gaudon-Plesse, R Back, B Seraphin, ... Nature structural & molecular biology 23 (11), 982-986, 2016 | 57 | 2016 |
| A unique surface on Pat1 C-terminal domain directly interacts with Dcp2 decapping enzyme and Xrn1 5′–3′ mRNA exonuclease in yeast C Charenton, C Gaudon-Plesse, Z Fourati, V Taverniti, R Back, ... Proceedings of the National Academy of Sciences 114 (45), E9493-E9501, 2017 | 55 | 2017 |
| Structure and function of the yeast listerin (Ltn1) conserved N-terminal domain in binding to stalled 60S ribosomal subunits SK Doamekpor, JW Lee, NL Hepowit, C Wu, C Charenton, M Leonard, ... Proceedings of the National Academy of Sciences 113 (29), E4151-E4160, 2016 | 46 | 2016 |
| RNA mimicry by the fap7 adenylate kinase in ribosome biogenesis J Loc'h, M Blaud, S Réty, S Lebaron, P Deschamps, J Bareille, J Jombart, ... PLoS Biology 12 (5), e1001860, 2014 | 42 | 2014 |
| mRNA decapping: finding the right structures C Charenton, M Graille Philosophical Transactions of the Royal Society B: Biological Sciences 373 …, 2018 | 34 | 2018 |
| The C-terminal domain from S. cerevisiae Pat1 displays two conserved regions involved in decapping factor recruitment Z Fourati, O Kolesnikova, R Back, J Keller, C Charenton, V Taverniti, ... PLoS One 9 (5), e96828, 2014 | 12 | 2014 |
| Pby1 is a direct partner of the Dcp2 decapping enzyme C Charenton, C Gaudon-Plesse, R Back, N Ulryck, L Cosson, B Séraphin, ... Nucleic Acids Research 48 (11), 6353-6366, 2020 | 7 | 2020 |
| Dominant variants in major spliceosome U4 and U5 small nuclear RNA genes cause neurodevelopmental disorders through splicing disruption C Nava, B Cogne, A Santini, E Leitão, F Lecoquierre, Y Chen, SL Stenton, ... medRxiv, 2024.10. 07.24314689, 2024 | 1 | 2024 |
| Recruitment of the mRNA decay machineries to the 5’end of mRNAs C Charenton, CG Plesse, V Taverniti, R Back, B Séraphin, M Graille The Complex Life of RNA, 2018 | | 2018 |
| The C-Terminal Domain from S. cerevisiae Pat1 Displays Two Conserved Regions Z Fourati, O Kolesnikova, R Back, J Keller, C Charenton | | 2014 |
