Abstract
The genus Fusobacterium encompasses significant pathogens implicated in diseases spanning from infections to cancer. However, taxonomic ambiguities persist within the genus, particularly concerning Fusobacterium nucleatum (sensu lato). Through genus-wide average nucleotide identity (ANI) and phylogenetic analyses of 540 Fusobacterium genomes, we identify an ANI gap (93.38%-93.89%) for species delineation, leading to comprehensive taxonomic revisions that resolve these ambiguities. We further establish gyrB and rpoB as high-resolution taxonomic markers with phylogenies consistently supporting the revised taxonomy. Leveraging these markers, we develop B&B, a general strategy for precise species identification without whole-genome sequencing, and validate its accuracy in clinically relevant strains. Integrating the revised taxonomy with genomic/metagenomic toolkits demonstrate broad utilities, reinterpreting key colorectal cancer-associated species. This work establishes a unified taxonomic framework and enables standardised species classification for Fusobacterium isolates and microbiomes, highlighting the genetic divergence among Fusobacterium species and providing the taxonomic precision essential for advancing Fusobacterium-related research.