Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 22, Issue 20, Pages -Publisher
MDPI
DOI: 10.3390/ijms222011257
Keywords
PET; plastic; biodegradation; plastic degradation; PETase; MHETase; LCC; cutinase; Ideonella sakaiensis; biocatalysis
Funding
- Portuguese Foundation for Science and Technology (FCT) [UIDP/04378/2020, UIDB/04378/2020]
- FCT [2020.09087, 2020.01423.CEECIND/CP1596/CT0003]
- Fundação para a Ciência e a Tecnologia [2020.01423.CEECIND/CP1596/CT0003] Funding Source: FCT
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Plastics are durable and widely used materials, but current methods for degradation and recycling are flawed. Biodegradation has emerged as a viable alternative, with enzymes capable of degrading PET being discovered and engineered. Despite progress, further efforts are needed to improve enzyme activity and thermal stability.
Plastics are highly durable and widely used materials. Current methodologies of plastic degradation, elimination, and recycling are flawed. In recent years, biodegradation (the usage of microorganisms for material recycling) has grown as a valid alternative to previously used methods. The evolution of bioengineering techniques and the discovery of novel microorganisms and enzymes with degradation ability have been key. One of the most produced plastics is PET, a long chain polymer of terephthalic acid (TPA) and ethylene glycol (EG) repeating monomers. Many enzymes with PET degradation activity have been discovered, characterized, and engineered in the last few years. However, classification and integrated knowledge of these enzymes are not trivial. Therefore, in this work we present a summary of currently known PET degrading enzymes, focusing on their structural and activity characteristics, and summarizing engineering efforts to improve activity. Although several high potential enzymes have been discovered, further efforts to improve activity and thermal stability are necessary.
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