Premise: Chaetopeltidales is a small, understudied order of the green algal class Chlorophyceae, that is slowly expanding with the occasional discoveries of novel algae. Here we demonstrate that hitherto unrecognized chaetopeltidaleans also exist among previously described but neglected and misclassified species.
Methods: Strain SAG 40.91 of Characium acuminatum, shown by previous preliminary evidence to have affinities with the orders Oedogoniales, Chaetophorales, and Chaetopeltidales (together constituting the OCC clade), was investigated with light and electron microscopy to characterize its morphology and ultrastructure. Sequence assemblies of the organellar and nuclear genomes were obtained and utilized in bioinformatic and phylogenetic analyses to address the phylogenetic position of the alga and its salient genomic features.
Results: The characterization of strain SAG 40.91 and a critical literature review led us to reinstate the forgotten genus Hydrocytium A.Braun 1855, with SAG 40.91 representing its type species, Hydrocytium acuminatum. Independent molecular markers converged on placing H. acuminatum as a deeply diverged lineage of the order Chaetopeltidales, formalized as the new family Hydrocytiaceae. Both chloroplast and mitochondrial genomes shared characteristics with other members of Chaetopeltidales and were bloated by repetitive sequences. Notably, the mitochondrial cox2a gene was transferred into the nuclear genome in the H. acuminatum lineage, independently of the same event in Volvocales. The nuclear genome data from H. acuminatum and from another chaetopeltidalean that was reported by others revealed endogenized viral sequences corresponding to novel members of the phylum Nucleocytoviricota.
Conclusions: The resurrected genus Hydrocytium expands the known diversity of chaetopeltidalean algae and provides the first glimpse into their virosphere.
Keywords: Chlorophyceae; chloroplast genome; diversity; green algae; phylogeny; taxonomy; viruses.
© 2023 Botanical Society of America.