Integrated valorisation of PET and xylose using the oleaginous microorganisms Yarrowia lipolytica and Rhodococcus jostii

The increasing accumulation of polyethylene terephthalate (PET) waste has prompted the development of sustainable biotechnological strategies for its degradation and valorisation. This study presents an integrated approach combining enzymatic PET depolymerization by Yarrowia lipolytica , engineered to express and secrete the cutinase HiC and the lipase CalB, with the microbial valorization of PET-derived monomers, terephthalic acid (TPA) and ethylene glycol (EG), by Rhodococcus jostii RHA1. Y. lipolytica was further engineered for xylose metabolism, enabling enzyme production from low-cost lignocellulose-derived substrates. Enzymatic assays with HiC and CalB crudes effectively hydrolysate PET to TPA and EG, demonstrating functional enzymatic activity without purification steps. In addition, R. jostii RHA1 was able to use as substrate the released monomers and accumulated intracellular lipids.

Overall, this work demonstrates the feasibility of coupling the production of PET degrading enzymes and microbial lipid, using an abundant monosaccharide, with the assimilation of the PET degradation products to also produce microbial lipids. This modular system provides a promising framework for the sustainable upcycling of plastic waste into value-added bioproducts within a circular economy.