RT Journal Article SR Electronic T1 Convergent evolution of genes controlling mitonuclear balance in annual fishes JF bioRxiv FD Cold Spring Harbor Laboratory SP 055780 DO 10.1101/055780 A1 Arne Sahm A1 Martin Bens A1 Matthias Platzer A1 Alessandro Cellerino YR 2016 UL http://biorxiv.org/content/early/2016/05/27/055780.abstract AB Complexes of the respiratory chain are formed in a complex process where nuclearly-and mitochondrially-encoded components are assembled and inserted into the inner mitochondrial membrane. The coordination of this process is named mitonuclear balance and experimental manipulations of mitonuclear balance can increase longevity of laboratory species.Here, we investigated the pattern of positive selection in annual (i.e. short-lived)and non-annual (i.e. long-lived) African killifishes to identify a genomic substrate for evolution of annual life history (and reduced lifespan).We identified genes under positive selection in all mitonuclear balance: mitochondrial (mt) DNA replication, transcription from mt promoters, processing and stabilization of mt RNAs, mt translation, assembly of respiratory chain complexes and electron transport chain. Signs of convergent evolution are observed in four out of five steps. This strongly indicates that these genes are preferential genetic targets for the evolution of short lifespan and annual life cycle