Dynamic evolution of mitochondrial ribosomal proteins in Holozoa

• Selection for rapid replication caused restructuring of the mitochondrial genome.
• Horizontal gene transfer between metazoans and amoebozoans.
• MRP sequences support a sister group relationship between Ctenophora and Bilateria.
• Additional MRPs compensated for a loss of rRNA segments in the mitoribosomes.
• Newly acquired MRPs evolved faster than prokaryotic MRPs.

We studied the highly dynamic evolution of mitochondrial ribosomal proteins (MRPs) in Holozoa. Most major clades within Holozoa are characterized by gains and/or losses of MRPs. The usefulness of gains of MRPs as rare genomic changes in phylogenetics is undermined by the high frequency of secondary losses. However, phylogenetic analyses of the MRP sequences provide evidence for the Acrosomata hypothesis, a sister group relationship between Ctenophora and Bilateria. An extensive restructuring of the mitochondrial genome and, as a consequence, of the mitochondrial ribosomes occurred in the ancestor of metazoans. The last MRP genes encoded in the mitochondrial genome were either moved to the nuclear genome or were lost. The strong decrease in size of the mitochondrial genome was probably caused by selection for rapid replication of mitochondrial DNA during oogenesis in the metazoan ancestor. A phylogenetic analysis of MRPL56 sequences provided evidence for a horizontal gene transfer of the corresponding MRP gene between metazoans and Dictyostelidae (Amoebozoa). The hypothesis that the requisition of additional MRPs compensated for a loss of rRNA segments in the mitochondrial ribosomes is corroborated by a significant negative correlation between the number of MRPs and length of the rRNA. Newly acquired MRPs evolved faster than bacterial MRPs and positions in eukaryote-specific MRPs were more strongly affected by coevolution than positions in prokaryotic MRPs in accordance with the necessity to fit these proteins into the pre-existing structure of the mitoribosome.

Figure optionsDownload as PowerPoint slide