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Papers
20 resultsShowing papers similar to Enzyme‐Catalyzed Biodegradation of Micro‐ and Nanoplastics
ClearPolymer Chemistry: A primer to enzymatic polymer degradation
This review primer covers how enzymes can be used to biodegrade polymers, with applications for chemical recycling of plastics and removal of microplastic debris from the environment. Enzymatic degradation offers a targeted, environmentally friendly approach to breaking down persistent plastic polymers at the source.
Catalytic and biocatalytic degradation of microplastics
This review covers the current state of breaking down microplastics using catalysts and biological agents including enzymes, metals, nanomaterials, and microorganisms. While some approaches show promise for degrading certain plastic types, the field is still developing standardized methods for measuring how well these techniques work. Finding effective ways to break down microplastics is critical for reducing the environmental and health burden of plastic pollution.
Microbial Degradation and Valorization of Plastic Wastes
This review covers recent advances in microbial and enzymatic degradation of synthetic plastic wastes, summarizing the microorganisms and enzymes capable of attacking different polymer types and assessing the prospects for biological plastic waste treatment at scale.
Role of Various Microbes and Their Enzymatic Mechanisms for Biodegradation of Microplastics
This review examines the microbial enzymes and degradation mechanisms responsible for biodegrading microplastic polymers, covering bacterial, fungal, and algal systems that have evolved plastic-degrading capabilities over the past 150 years of plastic production. The authors survey the most promising enzymatic pathways and organisms for biotechnological application in microplastic remediation.
Microbe-assisted Enzymatic Degradation of Microplastic
This review examines microbially assisted enzymatic degradation of microplastics as a promising bioremediation strategy, surveying the microorganisms and extracellular enzymes capable of cleaving plastic polymer chains. The authors assess current progress, limitations, and future prospects for applying this approach to reduce microplastic accumulation in terrestrial and aquatic environments.
Environmental impact and mitigation of micro(nano)plastics pollution using green catalytic tools and green analytical methods
Researchers reviewed the growing problem of microplastics and nanoplastics in the environment, then assessed enzyme-based strategies for breaking them down, finding that enzymes specifically targeting plastic polymer structures offer a promising, sustainable approach to degradation, especially when stabilized on nanomaterials to extend their activity.
Microbial plastic degradation: enzymes, pathways, challenges, and perspectives.
This review synthesizes current knowledge on microbial plastic degradation, covering the enzymes and metabolic pathways involved in breaking down major synthetic polymers, the challenges limiting efficient biodegradation, and perspectives for engineering improved microbial solutions to plastic waste.
Innovative Approaches to Microplastic and Nano-plastic Biodegradation
This review covers innovative biotechnological approaches to microplastic and nanoplastic biodegradation, examining the origins of these particles from larger plastic waste and intentionally manufactured microbeads. The authors assess promising biological and enzymatic strategies for accelerating breakdown of persistent plastic polymers in environmental and engineered systems.
Discovery of Plastics-degrading Enzymes
This review examines the discovery and characterization of plastic-degrading enzymes, exploring microbial strategies for breaking down synthetic polymers that persist in the environment for up to 1,000 years. The paper discusses enzyme mechanisms, substrate specificity, and the potential of biological degradation to address the global plastic waste crisis driven by poor recycling practices.
Microbial Biodegradation of Plastics and Microplastics: Enzymatic Mechanisms, Biotechnological Applications, and Ecotoxicological Perspectives
This review examined the enzymatic mechanisms by which microorganisms degrade plastics and microplastics, covering biotechnological applications and ecotoxicological perspectives. Researchers found that certain bacterial and fungal enzymes can break down persistent plastic polymers, positioning microbial biodegradation as a promising sustainable remediation approach, though scalability and environmental deployment remain challenges.
Characteristic Features of Plastic Microbial Degradation
This book chapter reviews the characteristics of microbial plastic degradation, covering the enzymes, metabolic pathways, and environmental conditions that affect breakdown rates for different polymer types. Understanding microbial degradation mechanisms is foundational to developing biological solutions for microplastic pollution.
Biodegradation of Microplastic: A Sustainable Approach
This review examines biological approaches to microplastic degradation, covering microorganisms and enzymes capable of breaking down common plastic polymers such as PET and polyethylene. Biodegradation could offer a sustainable path to reducing microplastic accumulation in soil, water, and marine environments.
Role of organisms and their enzymes in the biodegradation of microplastics and nanoplastics: A review
This review examined organisms and their enzymes capable of biodegrading microplastics and nanoplastics, highlighting bacteria, fungi, and insects as promising biological agents and identifying key enzymatic pathways that could offer sustainable solutions to plastic pollution.
Biotechnological Potential for Microplastic Waste
This article reviews how biotechnology — including engineered microbes and enzymes — can be used to break down microplastic waste. As conventional plastic recycling falls short, biological approaches offer a promising complement to reduce the accumulation of microplastics in the environment.
Nature-Inspired Strategies for Sustainable Degradation of Synthetic Plastics
This review examines nature-inspired biological strategies for breaking down synthetic plastics, including enzyme engineering and microbial approaches. The study suggests that mimicking natural degradation processes could overcome the chemical and physical barriers that make plastics resistant to breakdown, offering a path toward more sustainable plastic waste management.
Impact of Microplastics on the Environment and Human/Animal Health and Their Enzymatic Removal
This review covers the environmental and health impacts of microplastics across ecosystems and discusses enzymatic degradation approaches, examining how identified plastic-degrading enzymes could be engineered or deployed at scale to reduce MP persistence in the environment.
Enzymes to make plastics disappear
This review article discusses the problem of plastic waste accumulating in the environment, including the formation of microplastics, and explores the potential of engineered enzymes to break down synthetic polymers as a biological solution to plastic pollution.
8 Recent endeavors in microbial remediation of micro- and nanoplastics
This book chapter reviews microbial strategies for breaking down micro- and nanoplastics, covering bacteria, fungi, algae, and their associated enzymes. While microbial degradation of plastics is still slow and limited, understanding these pathways is essential for developing practical bioremediation solutions.
A minireview on the bioremediative potential of microbial enzymes as solution to emerging microplastic pollution
This mini review explores the potential of microbial enzymes as a sustainable solution for degrading microplastics, discussing recent advances in identifying plastic-degrading enzymes and the challenges remaining for practical bioremediation applications.
Microbial Degradation of Micro‐Plastics
This review examines the role of naturally occurring microorganisms including bacteria, fungi, and algae in degrading microplastics, discussing the enzymatic mechanisms involved, the species identified as effective plastic degraders, and the prospects for applying microbial degradation pathways in bioremediation strategies.