Jacinthe AZEVEDO-FAVORY
- Laboratoire Génome et développement des plantes (LGDP)
Présentation
Jacinthe AZEVEDO FAVORY
CNRS researcher
LGDP (UMR5096 UPVD/CNRS)
58 avenue Paul Alduy
66860 PERPIGNAN
FRANCE ACADEMIC DEGREES
2001/10-2005/10: Ph.D. training in Biology at the University Joseph Fourier (UJF), Grenoble France. Research in the team PDC laboratory (“Plastes et Différenciation Cellulaire”, UMR 5575 CNRS/UJF), in the « Transcription of plastidial genes and plastid division ». Funding: ministry research grant. POSITIONS HELD
Since 2010/12: CNRS researcher at the LGDP (Laboratoire Génome et Développement des Plantes, UMR5096 CNRS/UPVD), Perpignan, France.
Publications
Publications
Control of secondary cell wall formation by Musashi-type translational regulators in trees.14e Journées du Réseau Français des Parois, Aug 2024, Saint-Malo, France |
|
Mechanisms and impact of ribosomal RNA methylation in plants8ème colloque RNAOcc’ Club RNA Occitanie, Jun 2024, Toulouse, France |
|
Mapping rRNA 2'-O-Methylations and identification of C/D snoRNAs in Arabidopsis thalianaRNAOcc’ Club RNA Occitanie, Jun 2021, Virtuel, France |
|
|
Mechanisms and impact of ribosomal RNA methylation in plantsThe 2024 Post-transcriptional Gene Regulation in Plants meeting, Sep 2024, Banyuls-Sur-Mer, France. |
From mapping to mechanism: Ribosome rRNA methylation in plants47th FEBS Congress, Jul 2023, Tour, France |
|
Mapping rRNA 2'-O-Methylations and identification of C/D snoRNAs in Arabidopsis thalianaRibosome Synthesis, Aug 2022, Engelberg, Switzerland |
|
|
|
The impact of post-translational modifications on the activity of ARGONAUTE1 in Arabidopsis thaliana32th International Congress on Arabidopsis Research, Jun 2022, Belfast, United Kingdom. |
Mapping rRNA 2'-O-Methylation by RiboMethSeq and characterization of snoRNAs in Arabidopsis24th annual RNA Meetting, Jun 2019, Cracovie, Poland |
|
|
Dominance modifiers at the Arabidopsis self-incompatibility locus retain proto-miRNA features and act through non-canonical pathways2024 |
|
|
Caractérisation d'une nouvelle famille de protéines susceptibles d'interagir avec les NEP plastidialesBiochimie [q-bio.BM]. Université Joseph-Fourier - Grenoble I, 2005. Français. ⟨NNT : ⟩ |