Taxonomic classification of genus Aeromonas using open reading frame-based binarized structure network analysis

Objectives: Taxonomic assignment based on whole-genome sequencing data facilitates clear demarcation of species within a complex genus. Here, we applied a unique pan-genome phylogenetic method, open reading frame (ORF)-based binarized structure network analysis (OSNA), for taxonomic inference of Aer...

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Bibliographic Details
Published inFujita Medical Journal Vol. 10; no. 1; pp. 8 - 15
Main Authors Sakurai, Aki, Suzuki, Masahiro, Hayashi, Kengo, Doi, Yohei
Format Journal Article
LanguageEnglish
Published Japan Fujita Medical Society 2024
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Summary:Objectives: Taxonomic assignment based on whole-genome sequencing data facilitates clear demarcation of species within a complex genus. Here, we applied a unique pan-genome phylogenetic method, open reading frame (ORF)-based binarized structure network analysis (OSNA), for taxonomic inference of Aeromonas spp., a complex taxonomic group consisting of 30 species.Methods: Data from 335 publicly available Aeromonas genomes, including the reference genomes of 30 species, were used to build a phylogenetic tree using OSNA. In OSNA, whole-genome structures are expressed as binary sequences based on the presence or absence of ORFs, and a tree is generated using neighbor-net, a distance-based method for constructing phylogenetic networks from binary sequences. The tree built by OSNA was compared to that constructed by a core-genome single-nucleotide polymorphism (SNP)-based analysis. Furthermore, the orthologous average nucleotide identity (OrthoANI) values of the sequences that clustered in a single clade in the OSNA-based tree were calculated.Results: The phylogenetic tree constructed with OSNA successfully delineated the majority of species of the genus Aeromonas forming conspecific clades for individual species, which was corroborated by OrthoANI values. Moreover, the OSNA-based phylogenetic tree demonstrated high compositional similarity to the core-genome SNP-based phylogenetic tree, supported by the Fowlkes–Mallows index.Conclusions: We propose that OSNA is a useful tool in predicting the taxonomic classification of complex bacterial genera.
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ISSN:2189-7247
2189-7255
DOI:10.20407/fmj.2023-007