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Diversity of Antibiotic Resistance genes and Transfer Elements-Quantitative Monitoring (DARTE-QM): a method for detection of antimicrobial resistance in environmental samples

Schuyler D. Smith, Jinlyung Choi, Nicole Ricker, Fan Yang, Shannon M. Hinsa-Leasure, Michelle L. Soupir, Heather K. Allen, Adina Howe

2022Communications Biology29 citationsDOIOpen Access PDF

Abstract

Effective monitoring of antibiotic resistance genes and their dissemination in environmental ecosystems has been hindered by the cost and efficiency of methods available for the task. We developed the Diversity of Antibiotic Resistance genes and Transfer Elements-Quantitative Monitoring (DARTE-QM), a method implementing TruSeq high-throughput sequencing to simultaneously sequence thousands of antibiotic resistant gene targets representing a full-spectrum of antibiotic resistance classes common to environmental systems. In this study, we demonstrated DARTE-QM by screening 662 antibiotic resistance genes within complex environmental samples originated from manure, soil, and livestock feces, in addition to a mock-community reference to assess sensitivity and specificity. DARTE-QM offers a new approach to studying antibiotic resistance in environmental microbiomes, showing advantages in efficiency and the ability to scale for many samples. This method provides a means of data acquisition that will alleviate some of the obstacles that many researchers in this area currently face.

Topics & Concepts

Antibiotic resistanceDiversity (politics)Resistance (ecology)AntibioticsAntimicrobialGene transferBiologyGeneMicrobiologyGeneticsEcologyPolitical scienceLawPharmaceutical and Antibiotic Environmental ImpactsGenomics and Phylogenetic StudiesMicrobial Community Ecology and Physiology
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