Phylogenetic Relatedness and Genome Structure of Yersinia ruckeri Revealed by Whole Genome Sequencing and a Comparative Analysis

Abstract: Yersinia ruckeri is the causative agent of enteric redmouth disease (ERM), a serious infection that affects global aquaculture with high economic impact. The present study used whole genome sequences to perform a comparative analysis on 10 Y. ruckeri strains and to explore their genetic relatedness to other members of the genus. Y. ruckeri, Yersinia entomophaga, and Yersinia nurmii formed a species complex that constitutes the most basal lineage of the genus. The results showed that the taxonomy of Y. ruckeri … Show more

“…The high degree of openness of the Arthrobacter pangenome as compared to those of other genera (e.g., Janthinobacterium [83], Pectobacterium [84], Yersinia [85]), as well as the genes present in genomic islands and plasmids, suggests differences in adaptability among different taxa. As some microorganisms compete in communities strategically by leveraging catalysis kinetics or substrate affinities, it has been suggested that others may avoid direct competition via substrate specialization [26].…”

Genotype to ecotype in niche environments: adaptation of Arthrobacter to carbon availability and environmental conditions

“…The high degree of openness of the Arthrobacter pangenome as compared to those of other genera (e.g., Janthinobacterium [83], Pectobacterium [84], Yersinia [85]), as well as the genes present in genomic islands and plasmids, suggests differences in adaptability among different taxa. As some microorganisms compete in communities strategically by leveraging catalysis kinetics or substrate affinities, it has been suggested that others may avoid direct competition via substrate specialization [26].…”

Genotype to ecotype in niche environments: adaptation of Arthrobacter to carbon availability and environmental conditions