Abstract
The mitochondrial genomes of dinoflagellate protists are remarkable for their highly fragmented and heterogeneous organization. Early attempts to determine their structure without ‘next-generation’ DNA sequencing failed to recover a defined genome. Still, it coincided in showing that the proteins coding genes, three in total, and parts of the ribosomal RNA genes were spread across a diffuse assortment of small linear fragments. In contrast, a recent study employed Illumina sequencing to assemble a 326 kbp long single-molecule, circular mitochondrial genome in the symbiotic dinoflagellate Breviolum minutum. Here, we used a combination of short- and long-read massively-parallel DNA sequencing to analyze further the mitochondrial DNA of the early-branching dinoflagellate Oxyrrhis marina. We found that the mitochondrial genome of O. marina consists of 3 linear chromosomes sized 15.9, 33.8 and 40.6 kbp for a total of 90.3 kbp. It contains the cox1, cox3 and cob genes, the same three proteins encoded in the mitochondrion of all myzozoans (Apicomplexa and Dinophyceae), some fragments of ribosomal RNA genes as well as many non-functional gene fragments and extensive noncoding DNA. Our analysis unveiled segments syntenic patterns and rearrangements encompassing coding and non-coding regions, suggesting that recombination is a pervasive process driving the evolution of these genomes.
Published Version
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