Journal
OPEN BIOLOGY
Volume 12, Issue 3, Pages -Publisher
ROYAL SOC
DOI: 10.1098/rsob.210325
Keywords
protists; telonemids; 18S rDNA; microbial diversity; ultrastructure; evolution
Categories
Funding
- Russian Science Foundation [18-14-00239]
- ZIN RAS program [1021051402849-1]
- Science for Life Laboratory
- Russian Science Foundation [18-14-00239] Funding Source: Russian Science Foundation
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Telonemia is a major phylum of flagellated eukaryotes that plays a crucial role in understanding the origin and diversity of eukaryotes. However, the knowledge about Telonemia is limited. In this study, we established new cultures and described new species and a new genus of Telonemia, providing insights into its phylogeny and morphology. Our findings contribute to a deeper understanding of the origin of other major eukaryotic groups and the organization of microbial food webs.
Telonemia is a poorly known major phylum of flagellated eukaryotes with a unique combination of morphological traits. Phylogenomics recently revealed the phylogenetic position of telonemids as sister to SAR, one of the largest groups of eukaryotes, comprising Stramenopiles, Alveolata and Rhizaria. Due to this key evolutionary position, investigations of telonemids are of critical importance for elucidating the origin and diversification of an astounding diversity of eukaryotic forms and life strategies. To date, however, only two species have been morphologically characterized from Telonemia, which do not represent this genetically very diverse group. In this study, we established cultures for six new telonemid strains, including the description of five new species and a new genus. We used these cultures to update the phylogeny of Telonemia and provide a detailed morphological and ultrastructural investigation. Our data elucidate the origin of TSAR from flagellates with complex morphology and reconstruction of the ancestral structure of stramenopiles, alveolates and rhizarians, and their main synapomorphic characters. Since telonemids are a common component of aquatic environments, the features of their feeding, behaviour and ecological preferences observed in clonal cultures and the results of global metabarcoding analysis contribute to a deeper understanding of organization of microbial food webs.
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