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Abstract
The role of the gut microbiome in metabolizing polychlorinated biphenyls (PCBs), toxic environmental contaminants, and their metabolites remains unclear. This study used mouse and human microbiomes in anaerobic cultures to investigate PCB sulfate me-tabolism to hydroxylated PCBs (OH-PCBs). All microbiomes enzymatically hydrolyzed PCB sulfates. Higher chlorinated PCB sulfates were metabolized more readily. Male mouse microbiomes exhibited more PCB sulfate hydrolysis to OH-PCBs than fe-males. Human microbiomes metabolized PCB sulfates to a more considerable extent than mouse microbiomes. They also showed variability in PCB sulfate metabolism depending on the microbial communities. These findings suggest that the microbiome con-tributes to PCB metabolism.
Supplementary materials
Title
Supporting Information
Description
Description of chemicals, the animal study, metagenomic shot-gun sequencing, studies providing a rationale for the PCB sul-fate selection, mass spectrometry parameters, and molar per-centages and partitioning ratios of PCB metabolites in superna-tants and microbial pellets.
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