Abstract
In angiosperm organelles, cytidines are converted to uridines by a deamination reaction in the process termed RNA editing. The C targets of editing are recognized by members of the pentatricopeptide repeat (PPR) protein family. Although other members of the editosome have begun to be identified, the enzyme that catalyzes the C-U conversion is still unknown. The DYW motif at the C terminus of many PPR editing factors contains residues conserved with known cytidine deaminase active sites; however, some PPR editing factors lack a DYW motif. Furthermore, in many PPR-DYW editing factors, the truncation of the DYW motif does not affect editing efficiency, so the role of the DYW motif in RNA editing is unclear. Here, a chloroplast PPR-DYW editing factor, quintuple editing factor 1 (QED1), was shown to affect five different plastid editing sites, the greatest number of chloroplast C targets known to be affected by a single PPR protein. Loss of editing at the five sites resulted in stunted growth and accumulation of apparent photodamage. Adding a C-terminal protein tag to QED1 was found to severely inhibit editing function. QED1 and RARE1, another plastid PPR-DYW editing factor, were discovered to require their DYW motifs for efficient editing. To identify specific residues critical for editing, conserved deaminase residues in each PPR protein were mutagenized. The mutant PPR proteins, when expressed in qed1 or rare1 mutant protoplasts, could not complement the editing defect. Therefore, the DYW motif, and specifically, the deaminase residues, of QED1 and RARE1 are required for editing efficiency.
Highlights
Pentatricopeptide repeat (PPR) proteins are site-specific RNA editing factors; many have C-terminal motifs of unknown function
RARE1, which encodes a pentatricopeptide repeat (PPR)-DYW editing factor for a site in the Arabidopsis accD transcript, and which does not exist in rice, was previously identified by this strategy [16]
Deletion of the E and/or DYW motifs of quintuple editing factor 1 (QED1) and RARE1 Results in Greatly Reduced Editing Efficiency—We examined the effect of deletions of the C-terminal region of QED1 on editing efficiency by comparing the restoration of editing efficiency in mutant protoplasts when the entire coding region of QED1 was transfected versus constructs deleted beginning with the E motif, the Eϩ motif, or the DYW motif
Summary
Pentatricopeptide repeat (PPR) proteins are site-specific RNA editing factors; many have C-terminal motifs of unknown function. The DYW motif, and the deaminase residues, of QED1 and RARE1 are required for editing efficiency. One hypothesis is that deaminase activity is provided by the DYW domain that is present C-terminally on many, but not all, pentatricopeptide (PPR) motif-containing editing factors. We describe here a PPR-DYW editing factor, quintuple editing 1 (QED1), that affects five different chloroplast C targets, currently the largest number of chloroplast sites affected by a known PPR protein. To discern the possible role of the cytidine deaminase signatures HXE and CXXCH found in the DYW domain of PPR proteins, we performed site-directed mutagenesis and assayed the effect on editing in transfected mutant protoplasts. We investigated whether the sequences comprising a putative second zinc-binding site in the DYW domain [17] were necessary for RNA editing
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