Polyphasic discrimination of Shewanella seohaensis from closely related species and a whole-genome multilocus (wgMLST) scheme for the evaluation of diversity within this Shewanella clade

Shewanella is an environmentally ubiquitous genus with significant roles in bioelectrochemical applications and human infections. However, identification problems involving Shewanella putrefaciens , Shewanella xiamenensis, and Shewanella seohaensis , have been reported, potentially hindering research progress in these areas. In this study, we explored how to discriminate between these species. By comparing the genomes of Shewanella spp. available in public databases with that of the newly sequenced strain DSM9451, we showed that this strain is a member of the species S. seohaensis . Of the eight public genomes associated with this species, only two were correctly identified in public databases. Phenotypic analysis revealed distinct features of S. seohaensis with respect to S. putrefaciens and Shewanella decolorationis. However, only differences in the intensity of biochemical reactions were observed between S. xiamenensis and S. seohaensis. To discriminate between these closely related species and explore their diversity, a whole-genome multilocus sequence typing scheme was developed. The scheme distinguished related species and revealed significant diversity among S. seohaensis and S. xiamenensis isolates, suggesting that both species may harbor isolates with significantly different metabolic properties. These differences are so wide within the clade that may explain why these two species are difficult to distinguish. The identification of exclusive genes of each species allowed the design of a simple molecular method to differentiate S. seohaensis from closely related species, which will help in clarifying its role in human infections and environmental processes.