Piscinibacter sakaiensis strain:201-F6 Genome sequencing. Piscinibacter sakaiensis strain:201-F6

The scale of plastic pollution boggles the mind. Nearly 400 megatons of virgin plastics are produced annually, with an environmental release rate of 80 percent; and plastic waste including micro- and nanoplastics are associated with a plethora of problems. The naturally evolved abilities of plastic-degrading and consuming microbes offer a starting point for generating sustainable and eco-centric solutions to plastic pollution. Here we developed an iterative discovery procedure coupling faster quasi-high-throughput polyethylene terephthalate (PET) dependent bioactivity screens with longer-term PET biodegradation assays to find small molecule and ionic boosters of PET consumption by the bacterium Piscinibacter sakaiensis. We discovered multiple hits supporting greater than 2-fold enhancement of PET biodegradation -- with hits belonging to a small but heterogeneous set of compounds and mixtures, suggesting upregulation of PET consumption via multiple paths. This work has the potential to advance the creation of a fermentation-based process for solving PET plastic pollution.