Examining the taxonomic distribution of tetracycline resistance in a wastewater plant.

Microbial communities serve as reservoirs of antibiotic resistance genes (ARGs) and facilitate the dissemination of these genes to bacteria that infect humans. Relatively little is known about the taxonomic distribution of bacteria harboring ARGs in these reservoirs and the avenues of transmission due to the technical hurdles associated with characterizing the contents of complex microbial populations and the assignment of genes to particular genomes. Focusing on the array of tetracycline resistance (Tc^r) genes in the primary and secondary phases of wastewater treatment, 17 of the 22 assayed Tc^r genes were detected in at least one sample. We then applied emulsion, paired isolation, and concatenation PCR (epicPCR) to link tetracycline resistance genes to specific bacterial hosts. Whereas Tc^r genes tend to vary in their distributions among bacterial taxa according to their modes of action, there were numerous instances in which a particular Tc^r gene was associated with a host that was distantly related to all other bacteria bearing the same gene, including several hosts not previously identified. Tc^r genes are far less host-restricted than previously assumed, indicating that complex microbial communities serve as settings where ARGs are spread among divergent bacterial phyla.