A unique C-terminal domain contributes to the molecular function of restorer-of-fertility proteins in plant mitochondria

Abstract

SummaryRestorer-of-fertility(Rf) genes have practical applications in hybrid seed production as a means to control self-pollination. They encode pentatricopeptide repeat (PPR) proteins that are targeted to mitochondria where they specifically bind to transcripts that induce cytoplasmic male sterility and repress their expression. In searching for a molecular signature unique to this class of proteins, we found that a majority of known Rf proteins have a unique domain, which we called RfCTD (Restorer-of-fertility C-terminal domain), and its presence correlates with the ability to induce cleavage of the mitochondrial RNA target. We constructed a sequence profile that can quickly and accurately identify RfCTD sequences in plant genomes or transcriptomes. We screened 219 angiosperm genomes from 123 genera and found that each diploid genome encodes, on average, 25 Rf-like (RFL) proteins, of which approximately 55% contain the C-terminal signature domain. This screen also revealed considerable variation in RFL gene numbers across flowering plants. We observed that plant genera with bisexual flowers have significantly higher numbers of RFL genes compared to those with unisexual flowers, consistent with a role of these proteins in restoration of male fertility.Finally, we show that removing the RfCTD from the RFL protein RNA PROCESSING FACTOR 2-nad6prevented cleavage of its RNA target, thenad6transcript, inArabidopsis thalianamitochondria. This research provides a simple way of identifying putativeRfcandidates in genome sequences, new insights into the molecular mode of action of Rf proteins in plant mitochondria and expands our understanding of the evolution of fertility restoration in flowering plants.