突变体编辑缺陷分析为预测拟南芥E + 类PPR蛋白的RNA靶标提供了新线索。

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

作者信息

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

机构信息

Université Paris-Saclay, CNRS, INRAE, Univ Evry, Institute of Plant Sciences Paris-Saclay (IPS2), 91405 Orsay, France.

Université de Paris, CNRS, INRAE, Institute of Plant Sciences Paris-Saclay (IPS2), 91405 Orsay, France.

出版信息

Plants (Basel). 2020 Feb 21;9(2):280. doi: 10.3390/plants9020280.

DOI:10.3390/plants9020280

PMID:32098170

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7076377/

Abstract

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.

摘要

C到U编辑是植物叶绿体和线粒体基因正确表达所需的转录后步骤之一。它依赖于几种共同作用的蛋白质，其中包括PLS类五肽重复序列蛋白（PPR）。最近发现DYW2是两个细胞器中许多位点编辑所必需的。特别是，几乎所有与PPR蛋白E +亚家族相关的位点都依赖于DYW2，这表明DYW2是E +型PPR蛋白功能所必需的。在这里，我们通过鉴定由3种PPR蛋白控制的16个主要编辑位点加强了这种联系：OTP90，一种DYW型PPR；PGN；以及MEF37，两种E +型PPR蛋白。对DYW2编辑类型的重新分析表明，已知与18种已鉴定的E +型PPR蛋白相关的49个位点都依赖于DYW2。仅将288个依赖DYW2的编辑位点视为潜在的E +型PPR位点，而不是795个已知的编辑位点，可以提高基于E +型PPR蛋白PPR编码的结合预测系统的性能。然而，它并不能弥补较差的结合预测。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b83/7076377/50e130a3413c/plants-09-00280-g001.jpg

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突变体编辑缺陷分析为预测拟南芥E + 类PPR蛋白的RNA靶标提供了新线索。

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

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