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- Title
Engineering microbial division of labor for plastic upcycling.
- Authors
Bao, Teng; Qian, Yuanchao; Xin, Yongping; Collins, James J.; Lu, Ting
- Abstract
Plastic pollution is rapidly increasing worldwide, causing adverse impacts on the environment, wildlife and human health. One tempting solution to this crisis is upcycling plastics into products with engineered microorganisms; however, this remains challenging due to complexity in conversion. Here we present a synthetic microbial consortium that efficiently degrades polyethylene terephthalate hydrolysate and subsequently produces desired chemicals through division of labor. The consortium involves two Pseudomonas putida strains, specializing in terephthalic acid and ethylene glycol utilization respectively, to achieve complete substrate assimilation. Compared with its monoculture counterpart, the consortium exhibits reduced catabolic crosstalk and faster deconstruction, particularly when substrate concentrations are high or crude hydrolysate is used. It also outperforms monoculture when polyhydroxyalkanoates serves as a target product and confers flexible tuning through population modulation for cis-cis muconate synthesis. This work demonstrates engineered consortia as a promising, effective platform that may facilitate polymer upcycling and environmental sustainability. Plastic pollution is rapidly increasing worldwide, causing adverse impacts on the environment, wildlife and human health. Here the authors present a synthetic microbial consortium that efficiently degrades polyethylene terephthalate hydrolysate and upcycles it to desired chemicals through cellular division of labor.
- Subjects
DIVISION of labor; PLASTICS; PSEUDOMONAS putida; TEREPHTHALIC acid; ETHYLENE glycol; BIODEGRADABLE plastics; POLYHYDROXYALKANOATES; PLASTIC marine debris
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-40777-x