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Plastic-Degrading Potential across the Global Microbiome Correlates with Recent Pollution Trends

Jan Zrimec, Mariia Kokina, Sara Jonasson, Francisco Zorrilla, Aleksej Zelezniak

2021mBio122 citationsDOIOpen Access PDF

Abstract

Utilization of synthetic biology approaches to enhance current plastic degradation processes is of crucial importance, as natural plastic degradation processes are very slow. For instance, the predicted lifetime of a polyethylene terephthalate (PET) bottle under ambient conditions ranges from 16 to 48 years. Moreover, although there is still unexplored diversity in microbial communities, synergistic degradation of plastics by microorganisms holds great potential to revolutionize the management of global plastic waste. To this end, the methods and data on novel plastic-degrading enzymes presented here can help researchers by (i) providing further information about the taxonomic diversity of such enzymes as well as understanding of the mechanisms and steps involved in the biological breakdown of plastics, (ii) pointing toward the areas with increased availability of novel enzymes, and (iii) giving a basis for further application in industrial plastic waste biodegradation. Importantly, our findings provide evidence of a measurable effect of plastic pollution on the global microbial ecology.

Topics & Concepts

Plastic pollutionPollutionMicrobiomeAbundance (ecology)Environmental scienceMetagenomicsEcologyBiologyBioinformaticsGeneBiochemistryMicroplastics and Plastic PollutionEnvironmental DNA in Biodiversity StudiesMicrobial Community Ecology and Physiology
Plastic-Degrading Potential across the Global Microbiome Correlates with Recent Pollution Trends | Litcius