Abstract
Culturing protists offers a powerful approach to exploring eukaryotic diversity, especially for deep-branching lineages. In this study, we cultured and described a novel protist species, named Glissan-dra oviformis n sp., within the poorly studied and unclassified genus Glissandra . While an SSU rDNA gene phylogeny failed to resolve its phylogenetic placement in the eukaryotic tree, a phylogenomic analysis of 340 proteins indicated G. oviformis as a deep-branching member of the CRuMs clade. Prior to this study, this clade consisted of diverse het-erotrophic amoeba and flagellates and lacks clear synapomorphies. Ultrastructural observations re-vealed that G. oviformis shares the characteristics with some CRuMs members, including the pellicle underlying the plasma membrane and an internal sleeve surrounding the central pair of the axoneme at the flagellar transitional region. Our findings suggest potential shared characteristics and synapomorphies for CRuMs and contribute to a deeper understanding of the character evolution within CRuMs.
Full text
1,137 characters
· extracted from
oa-doi-fallback
· click to expand
Abstract
Culturing protists offers a powerful approach to exploring eukaryotic diversity, especially for deep-branching lineages. In this study, we cultured and described a novel protist species, named Glissan-dra oviformis n sp., within the poorly studied and unclassified genus Glissandra. While an SSU rDNA gene phylogeny failed to resolve its phylogenetic placement in the eukaryotic tree, a phylogenomic analysis of 340 proteins indicated G. oviformis as a deep-branching member of the CRuMs clade. Prior to this study, this clade consisted of diverse het-erotrophic amoeba and flagellates and lacks clear synapomorphies. Ultrastructural observations re-vealed that G. oviformis shares the characteristics with some CRuMs members, including the pellicle underlying the plasma membrane and an internal sleeve surrounding the central pair of the axoneme at the flagellar transitional region. Our findings suggest potential shared characteristics and synapomorphies for CRuMs and contribute to a deeper understanding of the character evolution within CRuMs.
Competing Interest Statement
The authors have declared no competing interest.
Text is read by the "Ask this paper" AI Q&A widget below.
Extraction quality varies by source — PMC NXML preserves structure
cleanly, OA-HTML may include some navigation residue, and OA-PDF can
have broken hyphenation. The publisher copy
(via DOI)
is the canonical version.