RNA PROCESSING FACTOR2 Is Required for 5′ End Processing of nad9 and cox3 mRNAs in Mitochondria of Arabidopsis thaliana

In mitochondria of higher plants, the majority of 5' termini of mature mRNAs are generated posttranscriptionally. To gain insight into this process, we analyzed a natural 5' end polymorphism in the species Arabidopsis thaliana. This genetic approach identified the nuclear gene At1g62670, encoding a pentatricopeptide repeat protein. The functional importance of this mitochondrial restorer of fertility-like protein, designated RNA PROCESSING FACTOR2 (RPF2), is confirmed by the analysis of a respective T-DNA knockout mutant and its functional restoration by in vivo complementation. RPF2 fulfills two functions: it is required for the generation of a distinct 5' terminus of transcripts of subunit 9 of the NADH DEHYDROGENASE complex (nad9) and it determines the efficiency of 5' end formation of the mRNAs for subunit 3 of the CYTOCHROME C OXIDASE (cox3), the latter also being influenced by mitochondrial DNA sequences. Accordingly, recombinant RPF2 protein directly binds to a nad9 mRNA fragment in vitro. Two-dimensional gel electrophoresis and immunodetection analyses reveal that altered 5' processing does not influence accumulation of the nad9 and cox3 polypeptides. In accessions C24, Oystese-1, and Yosemite-0, different inactive RPF2 alleles exist, demonstrating the variability of this gene in Arabidopsis. The identification of RPF2 is a major step toward the characterization of 5' mRNA processing in mitochondria of higher plants.