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Molecular phylogeny of the family Rhabdiasidae (Nematoda: Rhabditida), with morphology, genetic characterization and mitochondrial genomes of Rhabdias kafunata and R. bufonis
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Molecular phylogeny of the family Rhabdiasidae (Nematoda: Rhabditida), with morphology, genetic characterization and mitochondrial genomes of Rhabdias kafunata and R. bufonis
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Molecular phylogeny of the family Rhabdiasidae (Nematoda: Rhabditida), with morphology, genetic characterization and mitochondrial genomes of Rhabdias kafunata and R. bufonis
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Journal Article
Molecular phylogeny of the family Rhabdiasidae (Nematoda: Rhabditida), with morphology, genetic characterization and mitochondrial genomes of Rhabdias kafunata and R. bufonis
2024
Overview
Background
The family Rhabdiasidae (Nematoda: Rhabditida) is a globally distributed group of nematode parasites, with over 110 species parasitic mainly in amphibians and reptiles. However, the systematic position of the family Rhabdiasidae in the order Rhabditida remains unsolved, and the evolutionary relationships among its genera are still unclear. Moreover, the present knowledge of the mitochondrial genomes of rhabdiasids remains limited.
Methods
Two rhabdiasid species:
Rhabdias kafunata
Sata, Takeuchi & Nakano, 2020 and
R. bufonis
(Schrank, 1788) collected from the Asiatic toad
Bufo gargarizans
Cantor (Amphibia: Anura) in China, were identified based on morphology (light and scanning electron microscopy) and molecular characterization (sequencing of the nuclear 28S and ITS regions and mitochondrial
cox1
and
12S
genes). The complete mitochondrial genomes of
R. kafunata
and
R. bufonis
were also sequenced and annotated for the first time. Moreover, phylogenetic analyses based on the amino acid sequences of 12 protein-coding genes (PCGs) of the mitochondrial genomes were performed to clarify the systematic position of the family Rhabdiasidae in the order Rhabditida using maximum likelihood (ML) and Bayesian inference (BI). The phylogenetic analyses based on the 28S + ITS sequences, were also inferred to assess the evolutionary relationships among the genera within Rhabdiasidae.
Results
The detailed morphology of the cephalic structures, vulva and eggs in
R. kafunata
and
R. bufonis
was revealed using scanning electron microscopy (SEM) for the first time. The characterization of 28S and ITS regions of
R. kafunata
was reported for the first time. The mitogenomes of
R. kafunata
and
R. bufonis
are 15,437 bp and 15,128 bp long, respectively, and both contain 36 genes, including 12 PCGs (missing
atp8
). Comparative mitogenomics revealed that the gene arrangement of
R. kafunata
and
R. bufonis
is different from all of the currently available mitogenomes of nematodes. Phylogenetic analyses based on the ITS + 28S data showed
Neoentomelas
and
Kurilonema
as sister lineages, and supported the monophyly of
Entomelas
,
Pneumonema
,
Serpentirhabdias
and
Rhabdias
. Mitochondrial phylogenomic results supported Rhabdiasidae as a member of the superfamily Rhabditoidea in the suborder Rhabditina, and its occurrance as sister to the family Rhabditidae.
Conclusions
The complete mitochondrial genome of
R. kafunata
and
R. bufonis
were reported for the first time, and two new gene arrangements of mitogenomes in Nematoda were revealed. Mitogenomic phylogenetic results indicated that the family Rhabdiasidae is a member of Rhabditoidea in Rhabditina, and is closely related to Rhabditidae. Molecular phylogenies based on the ITS + 28S sequence data supported the validity of
Kurilonema
, and showed that
Kurilonema
is sister to
Neoentomelas
. The present phylogenetic results also indicated that the ancestors of rhabdiasids seem to have initially infected reptiles, then spreading to amphibians.
Graphical Abstract
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject
