A synthetic RNA editing factor edits its target site in chloroplasts and bacteria.

Members of the pentatricopeptide repeat (PPR) protein family act as specificity factors in C-to-U RNA editing. The expansion of the PPR superfamily in plants provides the sequence variation required for design of consensus-based RNA-binding proteins. We used this approach to design a synthetic RNA editing factor to target one of the sites in the Arabidopsis chloroplast transcriptome recognised by the natural editing factor CHLOROPLAST BIOGENESIS 19 (CLB19). We show that our synthetic editing factor specifically recognises the target sequence in in vitro binding assays. The designed factor is equally specific for the target rpoA site when expressed in chloroplasts and in the bacterium E. coli. This study serves as a successful pilot into the design and application of programmable RNA editing factors based on plant PPR proteins. RNA editing in plants is carried out by pentatricopeptide repeat (PPR) proteins. Royan et al construct an editing factor from synthetic PPR motifs and show that it can be expressed in plants and bacteria and edits the chosen target RNA with high specificity, demonstrating the potential of PPR proteins as programmable RNA editing factors. [ABSTRACT FROM AUTHOR]