Analysis of the marine red algal species
Mastocarpus papillatus
(C. Agardh) Kützing using paired-end 36 bp Illumina sequences resulted in the assembly of its complete mitochondrial and plastid genomes. The mitogenome is 25,906 bp in length and contains 50 genes, and the plastid genome is 184,382 bp with 234 genes. The mitochondrial and plastid genomes show high gene synteny with published Florideophyceae.
Red algal parasites are highly host specific organisms that are morphologically reduced with decreased pigmentation. Only found within the Florideophyceae, red algal parasites have evolved within eight orders, with the greatest parasite diversity found in the Ceramiales. A quarter of the ceramialian parasites in the family Delesseriaceae are described in the genus Asterocolax. The initial morphological description of Asterocolax led to the creation of an independent genus devoted to these parasitic species, but molecular data have repeatedly demonstrated that Asterocolax species, and likely many other red algal parasites, resolve within the genera of free-living red algae, often within the same genus as their hosts. Here and in previous studies, phylogenetic analysis of the internal transcribed spacer region of the ribosomal DNA has shown at least six instances of independent evolution of Asterocolax species, mainly interspersed among the free-living macroalgal genera of Phycodrys and Polyneura. As most Asterocolax are sister species to their hosts, they are independently derived from a photosynthetic ancestor, and together, do not form a monophyletic parasitic genus. Here we conduct a long overdue taxonomic revision of the red algal parasitic genus Asterocolax, describe a new species within the genus, and propose nomenclatural changes for four other species to reduce the polyphyletic clades encompassing Asterocolax.
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