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61,005 resultsShowing papers similar to Bioplastic Degradation, Production and Genetic Improvements of Bioplastic Producing Strains: A review
ClearGenetic Enhancement of Plastic Degrading Bacteria: The Way to a Sustainable and Healthy Environment
Researchers review how genetic engineering of plastic-degrading bacteria could accelerate the biological breakdown of plastic waste, highlighting promising enzymes and metabolic pathways. Engineering microbes with enhanced plastic-digesting capabilities could become an important tool for reducing the global accumulation of microplastics in the environment.
Biological Degradation of Plastics and Microplastics: A Recent Perspective on Associated Mechanisms and Influencing Factors
This review looks at how bacteria and their enzymes can break down different types of plastics and microplastics through biological processes. Understanding these natural degradation pathways is important because they could be harnessed to reduce the amount of persistent microplastic pollution that accumulates in the environment and eventually enters the human food chain.
Bioplastics against Microplastics: Screening of Environmental Bacteria for Bioplastics Production
Researchers screened environmental bacteria for their ability to produce polyhydroxyalkanoate bioplastics, which are biodegradable alternatives to conventional petroleum-based plastics. Developing efficient bioplastic-producing strains is one strategy to reduce the long-term accumulation of persistent microplastics in the environment.
The plastic and microplastic waste menace and bacterial biodegradation for sustainable environmental clean-up a review
This review examined bacterial biodegradation of plastic and microplastic waste, covering key microbial species, enzymatic mechanisms, and biotechnological approaches being developed for sustainable environmental cleanup of plastic pollution.
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.
Plastic waste impact and biotechnology: Exploring polymer degradation, microbial role, and sustainable development implications
Researchers reviewed how microorganisms and their enzymes can break down different types of plastic waste through both aerobic (oxygen-using) and anaerobic (oxygen-free) pathways. The review highlights biotechnological tools like genetic modification that could accelerate plastic biodegradation, supporting a shift toward a circular economy.
Role of Novel Biological Agents in Plastic Degradation and Mitigation Approach towards Bioplastics
This review examines the role of novel biological agents — including bacteria, fungi, and engineered microorganisms — in degrading synthetic plastics and proposes bioplastics as a mitigation strategy to reduce persistent polymer accumulation in the environment. The authors outline the enzymatic mechanisms involved in breaking down major plastic types and discuss the potential of combining biological degradation with bioplastic adoption.
Biodegradation of Wasted Bioplastics
This paper provides a broad overview of bioplastics — materials made from renewable biological sources — discussing their potential as a partial solution to global plastic pollution and the complexity of their biodegradability. While microplastic accumulation in oceans is mentioned as context for the urgency of the problem, the paper's focus is on bioplastic production and biodegradation rather than microplastic health or environmental impacts.
Recent Advancements and Mechanism of Plastics Biodegradation Promoted by Bacteria: A Key for Sustainable Remediation for Plastic Wastes
This review highlights recent discoveries of microbial enzymes capable of degrading various plastics, discussing bacterial biodegradation mechanisms as a sustainable remediation strategy for addressing accumulating plastic waste in landfills and water bodies.
Harnessing Microorganisms for Microplastic Degradation: A Sustainable Approach to Mitigating Environmental Pollution
This review surveys microorganisms—bacteria, fungi, and other taxa—capable of degrading microplastics, examining the enzymes, metabolic pathways, and environmental conditions involved, and assessing the practical potential of harnessing these organisms for bioremediation of plastic pollution.
Exploring biodegradative efficiency: a systematic review on the main microplastic-degrading bacteria
This systematic review identified bacteria that can break down microplastics in the environment. Some bacterial species show promising ability to degrade common plastics like polyethylene and polystyrene, offering a potential biological approach to reducing plastic pollution.
Recent developments in microbial degradation of polypropylene: Integrated approaches towards a sustainable environment
This review covers recent advances in microbial degradation of polypropylene, summarizing bacterial strains, enzyme systems, and environmental conditions that facilitate breakdown of this highly persistent polymer. The authors discuss integrated biotechnological approaches combining physical pretreatment with microbial activity as a pathway toward more effective polypropylene biodegradation.
Microbes mediated plastic degradation: A sustainable approach for environmental sustainability
This review examines microbially mediated plastic degradation as a sustainable environmental cleanup strategy, surveying bacterial and fungal species capable of breaking down common polymers and discussing enzymatic pathways and factors limiting practical biodegradation rates.
Exploration of Bioplastics: A Review
This review assessed bioplastics as alternatives to petroleum-based plastics, covering their production, properties, biodegradability, and limitations as a solution to plastic pollution. While bioplastics offer reduced fossil fuel dependence, the authors noted that many only degrade under industrial composting conditions and are not a complete solution to environmental plastic accumulation.
Recent Advances in Bioplastics: Application and Biodegradation
This review examines recent advances in bioplastics — including their applications in packaging, agriculture, and medicine — and critically evaluates their actual biodegradation performance in both natural and industrial environments, finding a significant gap between claims and real-world outcomes.
Exploring biopolymer degradation: Environmental effects and future insights
This review examines how biopolymers degrade in the environment and evaluates their potential as sustainable alternatives to conventional plastics. While biopolymers offer environmental benefits like reduced pollution, the study notes challenges including slower-than-expected degradation in natural settings, potential microplastic generation, and the need for better standardized testing and supportive policies.
Bioplastics in the circular bioeconomy: Production pathways, biodegradation mechanisms, and environmental implications
This comprehensive review examines how bioplastics — plastics made from renewable biological sources — fit into a circular economy, covering how they are produced, how microorganisms break them down, and the environmental risks when degradation is incomplete. A key concern is that even bio-based plastics can form microplastics if they do not fully degrade in real-world conditions like marine or soil environments, meaning that simply switching to bioplastics does not automatically solve the microplastic pollution problem.
Microplastic Accumulation and Degradation in Environment via Biotechnological Approaches
This review examines how biotechnological approaches, including genetic engineering, genome editing, and synthetic biology, can enhance microbial degradation of plastics. Researchers found that while microplastics and nanoplastics are now found throughout the environment and even in food and the human body, improved methods for plastic biodegradation could help reduce their production. The study highlights the potential of engineered microorganisms as a strategy for addressing plastic waste accumulation.
Biodegradation of different types of microplastics: Molecular mechanism and degradation efficiency
This review examines how bacteria, fungi, and algae can break down different types of microplastics through their enzymes, and compares the degradation efficiency of various microbial strains. Understanding these biological breakdown pathways is important because they could be developed into practical solutions for reducing the persistent microplastic pollution that threatens ecosystems and human health.
Genetic engineering approach to address microplastic environmental pollution: a review
This review explores how genetic engineering approaches could enhance the ability of microorganisms to biodegrade microplastics and nanoplastics in the environment. Researchers highlight that while wild-type microbes struggle to break down plastics due to their high molecular weight and crystallinity, engineered enzymes and organisms show potential for more effective plastic pollution remediation.
Recent advances and challenges in sustainable management of plastic waste using biodegradation approach
This review provides a comprehensive overview of plastic biodegradation as a sustainable strategy for managing plastic waste accumulation. Researchers surveyed recent breakthroughs in identifying microorganisms and enzymes capable of breaking down various plastic polymers under relatively mild conditions. The study highlights that while biodegradation shows promise as an eco-friendly alternative to conventional waste management, significant challenges remain in scaling these approaches for practical application.
Microbial degradation of plastic-A brief review
This review examined microbial degradation of plastics, surveying known plastic-degrading bacteria and fungi and the enzymes they produce, while acknowledging that degradation rates in natural environments remain extremely slow and that biotechnology approaches to accelerating biodegradation require further development.
Challenges and opportunities in bioremediation of micro-nano plastics: A review.
This review examines biological approaches to removing micro- and nanoplastics from the environment, focusing on microbial degradation and bioremediation strategies. While bioremediation holds promise, challenges remain in identifying microbes capable of degrading common plastic types and scaling these processes for practical environmental cleanup.
Biodegradation of Plastics: The role of biosurfactant-producing bacteria in environmental remediation
This review examined the role of biosurfactant-producing bacteria in plastic biodegradation, finding that biosurfactants enhance bioavailability of hydrophobic polyethylene and polypropylene surfaces, potentially accelerating microbial degradation—offering a promising biotechnological strategy for environmental plastic pollution remediation.