ABSTRACT
The Arabidopsis thaliana genome harbors more than 450 nuclear genes encoding pentatricopeptide repeat (PPR) proteins that operate in the RNA metabolism of mitochondria and/or plastids. To date, the molecular function of many PPR proteins is still unknown. Here we analyzed the nucleus-encoded gene At4g19440 coding for a P-type PPR protein. Knockout of this gene interferes with normal embryo development and seed maturation. Two experimental approaches were applied to overcome lethality and to investigate the outcome of At4g19440 knockout in adult plants. These studies revealed changes in the abundance of several mitochondria-encoded transcripts. In particular, steady-state levels of dicistronic rpl5-cob RNAs were markedly reduced, whereas levels of mature ccmC and rpl2-mttB transcripts were clearly increased. Predictions according to the one repeat to one nucleotide code for PPR proteins indicate binding of the At4g19440 protein to a previously detected small RNA at the 3' termini of the dicistronic rpl5-cob transcripts. This potential interaction indicates a function of this protein in 3' end formation and stabilization of these RNA species, whereas the increase in the levels of the ccmC mRNA along with other mitochondria-encoded RNAs seems to be a secondary effect of At4g19440 knockout. Since the inactivation of At4g19440 influences the stability of several mitochondrial RNAs we call this gene MITOCHONDRIAL TRANSCRIPT STABILITY FACTOR 4 (MTSF4). This factor will be an interesting subject to study opposing effects of a single nucleus-encoded protein on mitochondrial transcript levels.