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Perspectives on the microorganisms with the potentials of PET-degradation

Xiaohuan Liu, Jun-li Jin, Hai-tong Sun, Shuo Li, Feifei Zhang, Xinhong Yu, Qizhi Cao, Yuxuan Song, Nan Li, Zhenhua Lü, Tao Wang, Fei Liu, Jianmin Wang

2025Frontiers in Microbiology25 citationsDOIOpen Access PDF

Abstract

Polyethylene terephthalate (PET), a widely used synthetic polymer in daily life, has become a major source of post-consumer waste due to its complex molecular structure and resistance to natural degradation, which has posed a significant threat to the global ecological environment and human health. Current PET-processing methods include physical, chemical, and biological approaches, however each have their limitations. Given that numerous microbial strains exhibit a remarkable capacity to degrade plastic materials, microbial degradation of PET has emerged as a highly promising alternative. This approach not only offers the possibility of converting waste into valuable resources but also contributes to the advancement of a circular economy. Therefore in this review, it is mainly focused on the cutting-edge microbial technologies and the key role of specific microbial strains such as Ideonella sakaiensis 201-F6, which can efficiently degrade and assimilate PET. Particularly noteworthy are the catalytic enzymes related to the metabolism of PET, which have been emphasized as a sustainable and eco-friendly strategy for plastic recycling within the framework of a circular economy. Furthermore, the study also elucidates the innovative utilization of degraded plastic materials as feedstock for the production of high-value chemicals, highlighting a sustainable path forward in the management of plastic waste.

Topics & Concepts

Raw materialBiochemical engineeringCircular economyPolyethylene terephthalateDegradation (telecommunications)Environmental scienceWaste managementHuman healthMicrobial biodegradationMicroorganismBusinessMaterials scienceComputer scienceBacteriaEngineeringBiologyEcologyMedicineGeneticsEnvironmental healthComposite materialTelecommunicationsMicroplastics and Plastic PollutionRecycling and Waste Management Techniquesbiodegradable polymer synthesis and properties
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