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PPR-DYW Protein EMP17 Is Required for Mitochondrial RNA Editing, Complex III Biogenesis, and Seed Development in Maize

Yong Wang, Xinyuan Liu, Zi-Qin Huang, Yanyan Li, Yan‐Zhuo Yang, Aqib Sayyed, Feng Sun, Zhiqun Gu, Xiaomin Wang, Bao‐Cai Tan

2021Frontiers in Plant Science18 citationsDOIOpen Access PDF

Abstract

The conversion of cytidines to uridines (C-to-U) at specific sites in mitochondrial and plastid transcripts is a post-transcriptional processing event that is important to the expression of organellar genes. Pentatricopeptide repeat (PPR) proteins are involved in this process. In this study, we report the function of a previously uncharacterized PPR-DYW protein, Empty pericarp17 (EMP17), in the C-to-U editing and kernel development in maize. EMP17 is targeted to mitochondria. The loss-function of EMP17 arrests maize kernel development, abolishes the editing at ccmF C -799 and nad2 -677 sites, and reduces the editing at ccmF C -906 and -966 sites. The absence of editing causes amino acid residue changes in CcmF C -267 (Ser to Pro) and Nad2-226 (Phe to Ser), respectively. As CcmF C functions in cytochrome c (Cyt c ) maturation, the amount of Cyt c and Cyt c 1 protein is drastically reduced in emp17 , suggesting that the CcmF C -267 (Ser to Pro) change impairs the CcmF C function. As a result, the assembly of complex III is strikingly decreased in emp17 . In contrast, the assembly of complex I appears less affected, suggesting that the Nad2-226 (Phe to Ser) change may have less impact on Nad2 function. Together, these results indicate that EMP17 is required for the C-to-U editing at several sites in mitochondrial transcripts, complex III biogenesis, and seed development in maize.

Topics & Concepts

Pentatricopeptide repeatRNA editingBiologyBiogenesisMitochondrionPlastidMitochondrial biogenesisCell biologyGeneFunction (biology)Protein biosynthesisGeneticsRNABiochemistryChloroplastPhotosynthetic Processes and MechanismsMitochondrial Function and PathologyCRISPR and Genetic Engineering