Analyses of publicly available Hungatella hathewayi genomes revealed genetic distances indicating they belong to more than one species

Hungatella hathewayi has been observed to be a member of the gut microbiome. Unfortunately, little is known about this organism in spite of being associated with human fatalities; it is important to understand virulence mechanisms and epidemiological prospective to cause disease. In this study, a pa...

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Bibliographic Details
Published in:Virulence 2021-12, Vol.12 (1), p.1950-1964
Main Authors: Hernández-Juárez, Laura E., Camorlinga, Margarita, Méndez-Tenorio, Alfonso, Calderón, Judith Flores, Huang, B. Carol, Bandoy, DJ Darwin R., Weimer, Bart C., Torres, Javier
Format: Article
Language:English
Subjects:
Clostridiaceae - genetics
Genome, Bacterial
genomic diversity
pan-genome
Phylogeny
population genomics
Research Paper
RNA, Ribosomal, 16S - genetics
virulence
Whole genome sequencing
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Summary:Hungatella hathewayi has been observed to be a member of the gut microbiome. Unfortunately, little is known about this organism in spite of being associated with human fatalities; it is important to understand virulence mechanisms and epidemiological prospective to cause disease. In this study, a patient with chronic neurologic symptoms presented to the clinic with subsequent isolation of a strain with phenotypic characteristics suggestive of Clostridium difficile. However, whole-genome sequence found the organism to be H. hathewayi. Analysis including publicly available Hungatella genomes found substantial genomic differences as compared to the type strain, indicating this isolate was not C. difficile. We examined the whole-genome of Hungatella species and related genera, using comparative genomics to fully examine species identification and toxin production. Orthogonal phylogenetic using the 16S rRNA gene and entire genome analyses that included genome distance analyses using Genome-to-Genome Distance (GGDC), Average Nucleotide Identity (ANI), and a pan-genome analysis with inclusion of available public genomes determined the speciation to be Hungatella. Two clearly differentiated groups were identified, one including a reference H. hathewayi genome (strain DSM-13,479) and a second group that was determined to be H. effluvii, which included our clinical isolate. Also, some genomes reported as H. hathewayi were found to belong to other genera, including Clostridium and Faecalicatena. We show that the Hungatella species have an open pan-genome reflecting high genomic diversity. This study highlights the importance of correctly assigning taxonomic identification, particularly in disease-associated strains, to better understand virulence and therapeutic options.
ISSN:2150-5594
2150-5608
DOI:10.1080/21505594.2021.1950955