Onthodiplogaster japonica n. gen., n. sp. (Rhabditida: Diplogastridae) isolated from Onthophagus sp. (Coleoptera: Scarabaeidae) from Japan

Kanzaki, Natsumi; Ikeda, Yuya; Shinya, Ryoji

doi:10.1038/s41598-023-33586-1

Cited by 2 publications

References 53 publications

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Genome Assembly of the Nematode Rhabditoides Inermis From a Complex Microbial Community

Rödelsperger,

Röseler,

Athanasouli

et al. 2024

Genome Biology and Evolution

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Free-living nematodes such as Caenorhabditis elegans and Pristionchus pacificus are powerful model systems for linking specific traits to their underlying genetic basis. To trace the evolutionary history of specific traits or genes, a robust phylogenomic framework is indispensable. In the context of the nematode family Diplogastridae to which P. pacificus belongs, the identity of a sister group has long been debated. In this work, we generated a pseudochromosome level genome assembly of the nematode Rhabditoides inermis, which has previously been proposed as the sister taxon. The genome was assembled from a complex microbial community that is stably associated with R. inermis isolates and that consists of multiple bacteria and a fungus, which we identified as a strain of Vanrija albida. The R. inermis genome spans 173.5Mb that are largely assembled into five pseudochromosomes. This chromosomal configuration likely arose from two recent fusions of different Nigon elements. Phylogenomic analysis did not support a sister group relationship between R. inermis and diplogastrids, but rather supports a sister group relationship between the monophyletic Diplogastridae and a group of genera of Rhabditidae including C. elegans and R. inermis. Thus, our work addresses for the first time the long lasting question about the sister group to diplogastrids at the phylogenomic level and provides with the genomes of R. inermis and the associated fungus V. albida valuable resources for future genomic comparisons.

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Genome Assembly of the Nematode Rhabditoides Inermis From a Complex Microbial Community

Rödelsperger,

Röseler,

Athanasouli

et al. 2024

Genome Biology and Evolution

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The genome assembly ofRhabditoides inermisfrom a complex microbial community reveals further evidence for parallel gene family expansions across multiple nematodes

Rödelsperger,

Röseler,

Athanasouli

et al. 2024

Preprint

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BackgroundFree-living nematodes such asCaenorhabditis elegansandPristionchus pacificusare powerful model systems for linking specific traits to their underlying genetic basis. To trace the evolutionary history of a candidate gene, a robust phylogenomic framework is indispensable.ResultsIn this work, we generated a near chromosome-scale genome assembly of the nematodeRhabditoides inermiswhich had previously been proposed as the sister group of the family Diplogastridae to whichP. pacificusbelongs. The genome was assembled from a complex microbial community that consists of multiple bacteria and a fungus of the genusVanrija. TheR. inermisgenome has five chromosomes that likely arose from recent fusions of different Nigon elements. Phylogenomic analysis groupedR. inermiswithin a clade includingC. elegans,Mesorhabditis belariand other rhabditids and thus, did not support a sister group relationship betweenR. inermisand the family Diplogastridae. Comparative genomic analyses identified abundant lineage-specific orthogroups which reveal evidence for parallel expansions of environmentally responsive gene families.ConclusionsOur work demonstrates the value of theR. inermisgenome as a resource for future phylogenomic analysis and for studying gene family evolution.

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Onthodiplogaster japonica n. gen., n. sp. (Rhabditida: Diplogastridae) isolated from Onthophagus sp. (Coleoptera: Scarabaeidae) from Japan

Cited by 2 publications

References 53 publications

Genome Assembly of the Nematode Rhabditoides Inermis From a Complex Microbial Community

Genome Assembly of the Nematode Rhabditoides Inermis From a Complex Microbial Community

The genome assembly ofRhabditoides inermisfrom a complex microbial community reveals further evidence for parallel gene family expansions across multiple nematodes

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