After transcription, most chloroplast precursor RNAs undergo further post-transcriptional processing including cleavage, editing, and splicing. Previous investigation has shown that the cleavage of the rpoA transcript and most editing sites, including accD-1, are defective in the knockout mutant of PDM1/SEL1, a PLS-type PPR protein, and that PDM1 is associated with the rpoA transcript. In this work, we found that the splicing of group II introns in trnK and ndhA is also affected in pdm1. Co-immunoprecipitation mass spectrometry experiments were performed to identify proteins that are associated with PDM1. We obtained 126 non-redundant proteins, of which MORF9 was reported to be involved in RNA editing in chloroplast. Yeast two-hybrid assays showed that PDM1 interacts directly with MORF9, MORF2, and MORF8. RNA immunoprecipitation showed that PDM1 associates with the transcripts of trnK and ndhA, as well as accD-1, suggesting that PDM1 is involved in RNA editing and splicing. Therefore, PDM1 is an important protein for post-transcriptional regulation in chloroplast.
The pentatricopeptide repeat-DYW protein AtECB2 affects plastid RNA editing at seven sites, including accD-794, accD-1568, ndhF-290, ndhG-50, petL-5, rpoA-200 and rpoC1-488. To understand the mechanism of its involvement in RNA editing, a transgenic line was constructed with AtECB2 fused to a 4xMYC tag that could complement the atecb2 phenotype. RNA immunoprecipitation analysis indicated that AtECB2 is associated with the transcripts of accD, ndhF, ndhG and petL. Co-immunoprecipitation and mass spectrometry experiments showed that multiple organelle RNA editing factor 2 (MORF2) and porphobilinogen deaminase HEMC are associated with AtECB2. Biochemical analysis showed that AtECB2 directly interacts with HEMC through its E domain, while HEMC interacts with MORF8/RIP1. Deletion analysis showed that the E domain is essential for RNA editing. The hemc-1 mutant showed an albino and seedling-lethal phenotype. Of the seven editing sites affected in atecb2, the editing of accD-794 and ndhF-290 was also reduced in hemc-1. RNA immunoprecipitation analysis suggested that HEMC is associated with the editing sites of ndhF transcripts. These results showed that both HEMC and multiple organellar RNA editing factor (MORF) proteins are associated with AtECB2 for RNA editing in plastids.
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