Global view of dynamic expression and precise mapping of mitochondrial tRNAs-derived fragments during stressed conditions in S. pombe.

In this study, we provide a global view of population and processing of mitochondrial tRNAs-derived fragments (mt-tRFs) in fission yeast Schizosaccharomyces pombe. Here, mt-tRFs of 15-30 nucleotides were retrieved from S. pombe small RNA libraries obtained from unstressed, stress, and during stationary phase conditions. We demonstrate that production of these fragments increase during heat stress and stationary phase conditions in S. pombe, especially (most notably) in stationary phase. Analysis of data also reveals depending on the tRNA, either 5'-mt-tRF or 3'-mt-tRF was found and major mt-tRNA processing sites have been precisely identified. Furthermore, RNA-seq reveals that inactivation of trz2 encoding S. pombe mitochondrial tRNase ZL globally impairs mt-tRF processing. Finally, our result showed mt-tRFs were predicted to target mitochondrial genome mapping mtDNA-encoded protein gene. These observations suggest that mitochondrial tRFs may play an important regulatory role in response to stress and development.

dnm1 deletion blocks mitochondrial fragmentation in Δfzo1 cells.

Mitochondrial division and fusion play critical roles in maintaining functional mitochondria. Fzo1 is an outer mitochondrial membrane GTPase that played an essential role in mitochondrial fusion in budding yeast Saccharomyces cerevisiae. Here, we report the characterization of the Schizosaccharomyces pombe homologue of S. cerevisiae Fzo1p, Fzo1. Disruption of the fzo1 gene in S. pombe results in a fragmented mitochondrial morphology and a dramatically reduced growth on glycerol medium phenotype, indicating that deletion of fzo1 compromises respiratory function. Fluorescence microscopy shows that Fzo1p is located in the mitochondria. Overexpressing Fzo1 from a heterologous promoter induces mitochondrial aggregation. We also find that dnm1 mutations could both block mitochondrial fragmentation and rescue respiration growth defect in Δfzo1 single mutant cells. Our results proposed that a genetic interaction between fzo1 and a balance between division- and fusion-controlled mitochondrial shape and function in S. pombe. This study represents the first report of Fzo1 mediator of mitochondrial fusion in S. pombe.