142 Insight Into the Mitochondrial Genome of Emiliania Huxleyi (Haptophyta)

Emiliania huxleyi (Lohmann) Hay et Mohler 1967 (CCMP373) is the most abundant representative of the Haptophyta, and can be found in oceanic and neritic waters from subpolar to tropical latitudes. Blooms of this coccolithophorid may reach cell densities of 2.106 ml −1 and emit vast amounts of DMS (dimethyl sulfide), with the potential to affect the global climate. We report here the DNA sequence of more than 21 kb of the mitochondrial genome of this species, out of an approximate total of 30 kb. Preliminary annotation of the genome using database searches identified at least 16 genes. The data were also compared to the unpublished mitochondrial genome of Pavlova lutheri , another member of the haptophytes, and some important differences were identified. Although the gene content of E. huxleyi mtDNA seems to closely resemble that of P. lutheri mtDNA, the gene order differs substantially. Access to the P. lutheri and E. huxleyi mitochondrial genomes will permit the comparative analysis of two deeply diverging members of an ancient and ecologically significant lineage. Among other potential applications, the data will help to clarify phylogeny within the haptophytes as well as to determine the phylogenetic position of this division in relation to other groups of algae, such as heterokonts, dinoflagellates and cryptophytes.