Focusing the diversity of <italic>Gardnerella vaginalis</italic> through the lens of ecotypes.

Abstract: <italic>Gardnerella vaginalis</italic> has long been associated with bacterial vaginosis, a condition that increases the risk of women to preterm birth, sexually transmitted infections, and other adverse sequelae. However, <italic>G. vaginalis</italic> is also commonly found in healthy asymptomatic women of all ages. This raises the question if genetic differences among strains might distinguish potentially pathogenic from commensal strains. To disentangle the diversity of <italic>G. vaginalis,</italic> we invoked the concept of ecotypes—lineages of genetically and ecologically distinct strains within a named species—to better understand their evolutionary history and identify functional characteristics. We compared the genomes of <italic>G. vaginalis</italic> to six species in the closely related <italic>Bifidobacterium</italic> genus and found that <italic>G. vaginalis</italic> has a large accessory genome relative to <italic>Bifidobacterium</italic>, including many unique genes possibly involved in metabolism, drug resistance, and virulence. We then performed a comparative genomic analysis of 35 strains of <italic>G. vaginalis</italic> to infer a phylogeny based on the combined analysis of the core genome, using nucleotide substitution models, and the accessory genome, using gene gain/loss models. With the inferred tree topology, we performed comparisons of functional gene content among lineages that diverged at varying depths in the phylogeny and found significant differences in the representation of genes putatively involved in pathogenicity. Our functional enrichment analysis suggests that some lineages of <italic>G. vaginalis</italic> may possess enhanced pathogenic capabilities, including genes involved in mucus degradation like sialidases, while others may be commensal strains, lacking many of these pathogenic capabilities. The combined phylogenetic evidence and functional enrichment analysis allowed us to identify distinct ecotypes that have evolved in <italic>G. vaginalis</italic> as the result of the differential gene gain/loss for specific functions, including the capability to cause disease. We finally discuss how this analysis framework could be used to gain insight into the etiology of bacterial vaginosis and improve diagnosis. [ABSTRACT FROM AUTHOR]