AUTHOR=Wu Yichao , Zaiden Norazean , Cao Bin 

TITLE=The Core- and Pan-Genomic Analyses of the Genus Comamonas: From Environmental Adaptation to Potential Virulence

JOURNAL=Frontiers in Microbiology

VOLUME=9

YEAR=2018

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2018.03096

DOI=10.3389/fmicb.2018.03096

ISSN=1664-302X

ABSTRACT=<p><italic>Comamonas</italic> is often reported to be one of the major members of microbial communities in various natural and engineered environments. Versatile catabolic capabilities of <italic>Comamonas</italic> have been studied extensively in the last decade. In contrast, little is known about the ecological roles and adaptation of <italic>Comamonas</italic> to different environments as well as the virulence of potentially pathogenic <italic>Comamonas</italic> strains. In this study, we provide genomic insights into the potential ecological roles and virulence of <italic>Comamonas</italic> by analysing the entire gene set (pangenome) and the genes present in all genomes (core genome) using 34 genomes of 11 different <italic>Comamonas</italic> species. The analyses revealed that the metabolic pathways enabling <italic>Comamonas</italic> to acquire energy from various nutrient sources are well conserved. Genes for denitrification and ammonification are abundant in <italic>Comamonas</italic>, suggesting that <italic>Comamonas</italic> plays an important role in the nitrogen biogeochemical cycle. They also encode sophisticated redox sensory systems and diverse c-di-GMP controlling systems, allowing them to be able to effectively adjust their biofilm lifestyle to changing environments. The virulence factors in <italic>Comamonas</italic> were found to be highly species-specific. The conserved strategies used by potentially pathogenic <italic>Comamonas</italic> for surface adherence, motility control, nutrient acquisition and stress tolerance were also revealed.</p>