王勇
副研究员
所属院部: 生命科学学院
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论文成果
GRP23 plays a core role in E-type editosomes via interacting with MORFs and atypical PPR-DYWs in Arabidopsis mitochondria
  • 发表刊物:
    Proc Natl Acad Sci U S A .
  • 关键字:
    Arabidopsis; GRP23; MORF; editosome; mitochondrion
  • 摘要:
    Identifying the PPR-E+-NUWA-DYW2 editosome improves our understanding of the C-to-U RNA editing in plant organelles. However, the mechanism of RNA editing remains to be elucidated. Here, we report that GLUTAMINE-RICH PROTEIN23 (GRP23), a previously identified nuclear transcription regulator, plays an essential role in mitochondrial RNA editing through interacting with MORF (multiple organellar RNA-editing factor) proteins and atypical DYW-type pentatricopeptide repeat (PPR) proteins. GRP23 is targeted to mitochondria, plastids, and nuclei. Analysis of the grp23 mutants rescued by embryo-specific complementation shows decreased editing efficiency at 352 sites in mitochondria and 6 sites in plastids, with a predominant specificity for sites edited by the PPR-E and PPR-DYW proteins. GRP23 interacts with atypical PPR-DYW proteins (MEF8, MEF8S, DYW2, and DYW4) and MORF proteins (MORF1 and MORF8), whereas the four PPR-DYWs interact with the two MORFs. These interactions may increase the stability of the GRP23-MORF-atypical PPR-DYW complex. Furthermore, analysis of mef8N△64aamef8s double mutants shows that MEF8/MEF8S are required for the editing of the PPR-E protein-targeted sites in mitochondria. GRP23 could enhance the interaction between PPR-E and MEF8/MEF8S and form a homodimer or heterodimer with NUWA. Genetic complementation analysis shows that the C-terminal domains of GRP23 and NUWA possess a similar function, probably in the interaction with the MORFs. NUWA also interacts with atypical PPR-DYWs in yeast. Both GRP23 and NUWA interact with the atypical PPR-DYWs, suggesting that the PPR-E proteins recruit MEF8/MEF8S, whereas the PPR-E+ proteins specifically recruit DYW2 as the trans deaminase, and then GRP23, NUWA, and MORFs facilitate and/or stabilize the E or E+-type editosome formation.
  • 全部作者:
    Tang Jiaojiao,Wang Yong,Xu Chunhui
  • 第一作者:
    Yang Yan-Zhuo,Liu Xin-Yuan
  • 论文类型:
    期刊论文
  • 通讯作者:
    Tan Bao-Cai
  • 学科门类:
    理学
  • 一级学科:
    生物学
  • 是否译文:
  • 发表时间:
    2022-09-01
  • 收录刊物:
    SCI
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