Faecalibacterium wellingii sp. nov. and Faecalibacterium langellae sp. nov., description of two novel species aiding to the reclassification of Faecalibacterium species

Abstract

ObjectivesThe genus Faecalibacterium is one of the most important butyrate producers in the human intestinal tract and has been widely linked to health. Recently, several different species are described, but still more phylogroups have been identified, suggesting that additional species may exist. Four strains HTF-FT, HTF-128, HTF-75HT and HTF-76H, representing two different phylogenetic clusters, are evaluated in this study. MethodsPhylogenomic analysis was performed using whole-genome sequences and 16S rRNA gene sequences. Chemotaxonomic analysis was done based on matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Physiological and phenotypical characteristics of these strains were also determined. All characteristics of these strains were compared with other validly published species within the genus Faecalibacterium. ResultsOn a genomic level, the four strains shared an average nucleotide identity (ANI) of <95.0% and digital DNA-DNA hybridization (dDDH) of <70.0 with other Faecalibacterium species, while between HTF-FT and HTF-128 the ANI-value was 97.18% and the dDDH was 76.8%. HTF-75HT and HTF-76H had an ANI and dDDH value of 100% (99.96%) and 100% (99.99%) respectively. 16S rRNA gene and chemotaxonomic analysis were in accordance with the genomic data, confirming that the four strains represent two different Faecalibacterium species. ConclusionsFaecalibacterium strains HTF-FT (=DSM 117771T =NCIMB 15531T), HTF-128, HTF-75HT (=DSM 17770T =NCIMB 15530T) and HTF-76H represent two novel species. The names Faecalibacterium wellingii with HTF-FT as type strain and Faecalibacterium langellae with HTF-75HT as type strain are proposed.