The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins

C to U editing is one of the post-transcriptional steps which are required for the proper expression of chloroplast and mitochondrial genes in plants. It depends on several proteins acting together which include the PLS-class pentatricopeptide repeat proteins (PPR). DYW2 was recently shown to be req...

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Autores principales: Malbert, Bastien, Burger, Matthias, Lopez-Obando, Mauricio, Baudry, Kevin, Launay-Avon, Alexandra, Härtel, Barbara, Verbitskiy, Daniil, Jörg, Anja, Berthomé, Richard, Lurin, Claire, Takenaka, Mizuki, Delannoy, Etienne
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7076377/
https://www.ncbi.nlm.nih.gov/pubmed/32098170
http://dx.doi.org/10.3390/plants9020280
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author Malbert, Bastien
Burger, Matthias
Lopez-Obando, Mauricio
Baudry, Kevin
Launay-Avon, Alexandra
Härtel, Barbara
Verbitskiy, Daniil
Jörg, Anja
Berthomé, Richard
Lurin, Claire
Takenaka, Mizuki
Delannoy, Etienne
author_facet Malbert, Bastien
Burger, Matthias
Lopez-Obando, Mauricio
Baudry, Kevin
Launay-Avon, Alexandra
Härtel, Barbara
Verbitskiy, Daniil
Jörg, Anja
Berthomé, Richard
Lurin, Claire
Takenaka, Mizuki
Delannoy, Etienne
author_sort Malbert, Bastien
collection PubMed
description C to U editing is one of the post-transcriptional steps which are required for the proper expression of chloroplast and mitochondrial genes in plants. It depends on several proteins acting together which include the PLS-class pentatricopeptide repeat proteins (PPR). DYW2 was recently shown to be required for the editing of many sites in both organelles. In particular almost all the sites associated with the E+ subfamily of PPR proteins are depending on DYW2, suggesting that DYW2 is required for the function of E+-type PPR proteins. Here we strengthened this link by identifying 16 major editing sites controlled by 3 PPR proteins: OTP90, a DYW-type PPR and PGN and MEF37, 2 E+-type PPR proteins. A re-analysis of the DYW2 editotype showed that the 49 sites known to be associated with the 18 characterized E+-type PPR proteins all depend on DYW2. Considering only the 288 DYW2-dependent editing sites as potential E+-type PPR sites, instead of the 795 known editing sites, improves the performances of binding predictions systems based on the PPR code for E+-type PPR proteins. However, it does not compensate for poor binding predictions.
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spelling pubmed-70763772020-03-24 The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins Malbert, Bastien Burger, Matthias Lopez-Obando, Mauricio Baudry, Kevin Launay-Avon, Alexandra Härtel, Barbara Verbitskiy, Daniil Jörg, Anja Berthomé, Richard Lurin, Claire Takenaka, Mizuki Delannoy, Etienne Plants (Basel) Article C to U editing is one of the post-transcriptional steps which are required for the proper expression of chloroplast and mitochondrial genes in plants. It depends on several proteins acting together which include the PLS-class pentatricopeptide repeat proteins (PPR). DYW2 was recently shown to be required for the editing of many sites in both organelles. In particular almost all the sites associated with the E+ subfamily of PPR proteins are depending on DYW2, suggesting that DYW2 is required for the function of E+-type PPR proteins. Here we strengthened this link by identifying 16 major editing sites controlled by 3 PPR proteins: OTP90, a DYW-type PPR and PGN and MEF37, 2 E+-type PPR proteins. A re-analysis of the DYW2 editotype showed that the 49 sites known to be associated with the 18 characterized E+-type PPR proteins all depend on DYW2. Considering only the 288 DYW2-dependent editing sites as potential E+-type PPR sites, instead of the 795 known editing sites, improves the performances of binding predictions systems based on the PPR code for E+-type PPR proteins. However, it does not compensate for poor binding predictions. MDPI 2020-02-21 /pmc/articles/PMC7076377/ /pubmed/32098170 http://dx.doi.org/10.3390/plants9020280 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Malbert, Bastien
Burger, Matthias
Lopez-Obando, Mauricio
Baudry, Kevin
Launay-Avon, Alexandra
Härtel, Barbara
Verbitskiy, Daniil
Jörg, Anja
Berthomé, Richard
Lurin, Claire
Takenaka, Mizuki
Delannoy, Etienne
The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins
title The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins
title_full The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins
title_fullStr The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins
title_full_unstemmed The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins
title_short The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins
title_sort analysis of the editing defects in the dyw2 mutant provides new clues for the prediction of rna targets of arabidopsis e+-class ppr proteins
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7076377/
https://www.ncbi.nlm.nih.gov/pubmed/32098170
http://dx.doi.org/10.3390/plants9020280
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