Pulling needles out of a haystack: Subtractive Community Metatranscriptomics retrieves anaerobic o-xylene degradation pathway genes out of a mixed microbial culture

Abstract

For many contaminants, biomarker genes are unknown or assays are unavailable, and most biomarker assays target the first pathway step. Herein, we obtained sequences for all of the genes in a previously hypothesized o-xylene degradation pathway based on similarities to analogous genes in a known toluene degradation pathway. Comparative metatranscriptomics resulted in sequences for genes annotated as bssA, bbsEF, bbsCD, and bbsB, while genes for bbsG and bbsH were notably missing. Prokaryotic Suppressive Subtractive Hybridization PCR cDNA Subtraction (Prokaryotic SSH-PCR cDNA Subtraction) was applied for the first time to a mixed-species microbiome to enrich abundances of genes up-regulated during o-xylene degradation prior to metatranscriptomic sequencing. The subtracted metatranscriptome was sequenced using the MinION; this approach was highly effective at retrieving sequences for biodegradation genes including the previously missing bbsG and bbsH. Reverse transcription quantitative PCR (RT-qPCR) analysis confirmed up-regulation. Thus, data reported herein lend credence to the previously hypothesized anaerobic o-xylene degradation pathway, and new biomarker assays are presented. A novel biomarker development tool for mixed species systems, Subtractive Community Metatranscriptomics (SCM), is demonstrated.