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Autores principales: Packer, Julia A, Zavadska, Daryna, Weston, Elizabeth J, Eglit, Yana, Richter, Daniel J, Simpson, Alastair G B
Formato: Artículo científico
Lenguaje:en
Publicado: The Journal of eukaryotic microbiology 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/39868642/
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author Packer, Julia A
Zavadska, Daryna
Weston, Elizabeth J
Eglit, Yana
Richter, Daniel J
Simpson, Alastair G B
author_facet Packer, Julia A
Zavadska, Daryna
Weston, Elizabeth J
Eglit, Yana
Richter, Daniel J
Simpson, Alastair G B
Packer, Julia A
Zavadska, Daryna
Weston, Elizabeth J
Eglit, Yana
Richter, Daniel J
Simpson, Alastair G B
collection PubMed - marine biology
contents Characterization of Allobodo yubaba sp. nov. and Novijibodo darinka gen. et sp. nov., cultivable free-living species of the phylogenetically enigmatic kinetoplastid taxon Allobodonidae. Packer, Julia A Zavadska, Daryna Weston, Elizabeth J Eglit, Yana Richter, Daniel J Simpson, Alastair G B Phylogeny Kinetoplastida DNA, Ribosomal DNA, Protozoan RNA, Ribosomal, 18S Sequence Analysis, DNA Kinetoplastids are a large and diverse protist group, spanning ecologically important free-living forms to medically important parasites. The taxon Allobodonidae holds an unresolved position within kinetoplastids, and the sole described species, Allobodo chlorophagus, is uncultivated, being a necrotroph/parasite of macroalgae. Here we describe Allobodo yubaba sp. nov. and Novijibodo darinka gen. nov. et sp. nov., both free-living bacterivores isolated into monoeukaryotic cultures. Electron microscopy shows that both A. yubaba and N. darinka have a microtubular prism in the feeding apparatus (absent in A. chlorophagus), and an ovoid eukinetoplast, rather than pan-kDNA as in A. chlorophagus. Phylogenetic analyses of SSU rDNA sequences robustly place A. yubaba as the sister to A. chlorophagus, while N. darinka branches separately within Allobodonidae, as a sister group of undescribed freshwater isolates. We view Allobodonidae as containing at least four genus-level clades: Allobodo (A. chlorophagus and A. yubaba n. sp.), an undescribed fresh-water clade, an undescribed marine clade, and now Novijibodo-with N. darinka as its sole known member. Electron microscopy also revealed a rod-shaped gram-negative bacterial cytoplasmic endosymbiont in our N. darinka isolate. The availability of these species in monoeukaryotic culture should facilitate future research, including resolving the position of Allobodonidae using phylogenomic approaches.
format Artículo científico
id pubmed_39868642
institution PubMed
language en
publishDate 2025
publisher The Journal of eukaryotic microbiology
record_format pubmed
spellingShingle Characterization of Allobodo yubaba sp. nov. and Novijibodo darinka gen. et sp. nov., cultivable free-living species of the phylogenetically enigmatic kinetoplastid taxon Allobodonidae.
Packer, Julia A
Zavadska, Daryna
Weston, Elizabeth J
Eglit, Yana
Richter, Daniel J
Simpson, Alastair G B
Phylogeny
Kinetoplastida
DNA, Ribosomal
DNA, Protozoan
RNA, Ribosomal, 18S
Sequence Analysis, DNA
Characterization of Allobodo yubaba sp. nov. and Novijibodo darinka gen. et sp. nov., cultivable free-living species of the phylogenetically enigmatic kinetoplastid taxon Allobodonidae. Packer, Julia A Zavadska, Daryna Weston, Elizabeth J Eglit, Yana Richter, Daniel J Simpson, Alastair G B Phylogeny Kinetoplastida DNA, Ribosomal DNA, Protozoan RNA, Ribosomal, 18S Sequence Analysis, DNA Kinetoplastids are a large and diverse protist group, spanning ecologically important free-living forms to medically important parasites. The taxon Allobodonidae holds an unresolved position within kinetoplastids, and the sole described species, Allobodo chlorophagus, is uncultivated, being a necrotroph/parasite of macroalgae. Here we describe Allobodo yubaba sp. nov. and Novijibodo darinka gen. nov. et sp. nov., both free-living bacterivores isolated into monoeukaryotic cultures. Electron microscopy shows that both A. yubaba and N. darinka have a microtubular prism in the feeding apparatus (absent in A. chlorophagus), and an ovoid eukinetoplast, rather than pan-kDNA as in A. chlorophagus. Phylogenetic analyses of SSU rDNA sequences robustly place A. yubaba as the sister to A. chlorophagus, while N. darinka branches separately within Allobodonidae, as a sister group of undescribed freshwater isolates. We view Allobodonidae as containing at least four genus-level clades: Allobodo (A. chlorophagus and A. yubaba n. sp.), an undescribed fresh-water clade, an undescribed marine clade, and now Novijibodo-with N. darinka as its sole known member. Electron microscopy also revealed a rod-shaped gram-negative bacterial cytoplasmic endosymbiont in our N. darinka isolate. The availability of these species in monoeukaryotic culture should facilitate future research, including resolving the position of Allobodonidae using phylogenomic approaches.
title Characterization of Allobodo yubaba sp. nov. and Novijibodo darinka gen. et sp. nov., cultivable free-living species of the phylogenetically enigmatic kinetoplastid taxon Allobodonidae.
topic Phylogeny
Kinetoplastida
DNA, Ribosomal
DNA, Protozoan
RNA, Ribosomal, 18S
Sequence Analysis, DNA
url https://pubmed.ncbi.nlm.nih.gov/39868642/