Next generation taxonomy: integrating traditional species description with the holobiont concept and genomic approaches - The in-depth characterization of a novelEuplotesspecies as a case study

Abstract

AbstractIn 1991 Margulis defined holobionts as the assemblage of “two or more organisms, members of different species” which remain associate “throughout a significant portion of the life history”. In recent times, holobionts have been described among many and far-related groups of living beings, such as plants, algae, insects, corals, and even humans. These studies have arisen an increasing interest in different contexts but, to our knowledge, the holobiont concept has not been applied in taxonomy. Here we propose a new approach to modern taxonomy, aimed to integrate the holobiont concept and genomic and bioinformatic analyses with the classical/morphological tools traditionally used in taxonomy. The inclusion of symbiont morphology, and of mitochondrial and symbiont genomes will allow the discipline to move toward what could become the “next generation taxonomy”. As an example of this new paradigm in the characterization of holobionts, we herein provide the taxonomic description of the ciliate protistEuplotes vanleeuwenhoekisp. nov. (Euplotia, Ciliophora) and its bacterial endosymbiont “CandidatusPinguicoccus supinus” gen. nov., sp. nov. (Opitutae, Verrucomicrobia). Interestingly, we found that this endosymbiont has an extremely reduced genome (~163 Kbp), which is suggestive of a high integration with the host and represents the first case of such an extreme reduction inVerrucomicrobia, and the first case in a protist host.