Can polymer-degrading microorganisms solve the bottleneck of plastics’ environmental challenges?

Increasing world population and industrial activities have enhanced anthropogenic pollution, plastic pollution being especially alarming. So, plastics should be recycled and/or make them biodegradable. Chemical and physical remediating methods are usually energy consuming and costly. In addition, th...

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Veröffentlicht in:Chemosphere (Oxford) 2022-05, Vol.294, p.133709-133709, Article 133709
Hauptverfasser: Delangiz, Nasser, Aliyar, Sajad, Pashapoor, Neda, Nobaharan, Khatereh, Asgari Lajayer, Behnam, Rodríguez-Couto, Susana
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Sprache:eng
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Zusammenfassung:Increasing world population and industrial activities have enhanced anthropogenic pollution, plastic pollution being especially alarming. So, plastics should be recycled and/or make them biodegradable. Chemical and physical remediating methods are usually energy consuming and costly. In addition, they are not ecofriendly and usually produce toxic byproducts. Bioremediation is a proper option as it is cost-efficient and environmentally friendly. Plastic production and consumption are increasing daily, and, as a consequence, more microorganisms are exposed to these nonbiodegradable polymers. Therefore, investigating new efficient microorganisms and increasing the knowledge about their biology can pave the way for efficient and feasible plastic bioremediation processes. In this sense, omics, systems biology and bioinformatics are three important fields to analyze the biodegradation pathways in microorganisms. Based on the above-mentioned technologies, researchers can engineer microorganisms with specific desired properties to make bioremediation more efficient. [Display omitted] •Plastic pollution is one the most challenging environmental problems worldwide.•The plastic degrading ability of microorganisms is reviewed.•Recent achievements in microbial degradation of polymers are reviewed.•Omics approaches and bioinformatics are considered.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2022.133709