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A Quantitative Metagenomic Sequencing Approach for High-Throughput Gene Quantification and Demonstration with Antibiotic Resistance Genes

Bo Li, Xu Li, Tao Yan

2021Applied and Environmental Microbiology29 citationsDOIOpen Access PDF

Abstract

Monitoring and comprehensive assessment of microbial risks in the environment require high-throughput gene quantification. The quantitative metagenomic NGS (qmNGS) approach developed in this study incorporated numerous xenobiotic and synthetic DNA internal standard fragments into metagenomic NGS workflow, which are used to determine a new parameter called sequencing yield that relates sequence base reads to absolute concentration of target genes in the environmental samples. The qmNGS approach demonstrated excellent method linearity and comparable performance as the qPCR approach with high-throughput capability. This new qmNGS approach can achieve high-throughput and accurate gene quantification in environmental samples and has the potential to become a useful tool in monitoring and comprehensively assessing microbial risks in the environment.

Topics & Concepts

MetagenomicsBiologyComputational biologyDNA sequencingEnvironmental DNAGeneMicrobial geneticsGeneticsHorizontal gene transferDNADeep sequencingDNA extractionAntibiotic resistancePolymerase chain reactionBiotechnologyAnalyteReal-time polymerase chain reactionEscherichia coliPharmaceutical and Antibiotic Environmental ImpactsMicrobial Community Ecology and PhysiologyGenomics and Phylogenetic Studies
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