Co-immobilized multi-enzyme biocatalytic system on reversible and soluble carrier for saccharification of corn straw cellulose

Bioresource Technology, Journal Year: 2024, Volume and Issue: 395, P. 130325 - 130325

Published: Jan. 21, 2024

Language: Английский

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One stone two birds: Recycling of an agri-waste to synthesize laccase-immobilized hierarchically porous magnetic biochar for efficient degradation of aflatoxin B1 in aqueous solutions and corn oil

International Journal of Biological Macromolecules, Journal Year: 2024, Volume and Issue: 273, P. 133115 - 133115

Published: June 12, 2024

Language: Английский

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Biocatalytic Functionalities of Lignin Peroxidase-Based Systems in Lignin Depolymerization and Pollutants Removal from Environmental Matrices

Current Pollution Reports, Journal Year: 2024, Volume and Issue: 10(3), P. 345 - 361

Published: April 29, 2024

Abstract Purpose of Review In the presented review, we have summarized and highlighted recent developments in use lignin peroxidase (LiP) to remove a variety pollutants from water matrices. The high redox potential LiP is underlined by its excellent catalytic functionalities elimination pharmaceuticals, phenolics, dyes, polycyclic aromatic hydrocarbons (PAHs), endocrine-disrupting chemicals (EDCs), other miscellaneous pollutants. LiP-based computational frameworks for theoretical bioremediation multiple also been discussed, which prompted rise scientific interest. Recent Findings According current studies, both free immobilized LiPs are biocatalysts capable efficient pollutant degradation LMW transformation. Some preparations demonstrated recyclability, enabling reusability cycles. Additionally, degradability makes it easier comprehend mechanisms underlying recalcitrant Summary capacity cleave C–C C–O–C bonds has led widespread application as biocatalyst. Its outstanding catalyze oxidative cleavage effectively used remediation without needing mediators. Nevertheless, brought attention system framework, generated significant

Language: Английский

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Sustainable 3D-printed β-galactosidase immobilization coupled with continuous-flow reactor for efficient lactose-free milk production

Chemical Engineering Journal, Journal Year: 2024, Volume and Issue: 481, P. 148557 - 148557

Published: Jan. 4, 2024

Language: Английский

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Artificial antibody-antigen-directed immobilization of lipase for consecutive catalytic synthesis of ester: Benzyl acetate case study

Bioresource Technology, Journal Year: 2024, Volume and Issue: 403, P. 130894 - 130894

Published: May 24, 2024

Language: Английский

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Nucleobase-modulated copper nanomaterials with laccase-like activity for high-performance degradation and detection of phenolic pollutants

Journal of Hazardous Materials, Journal Year: 2024, Volume and Issue: 477, P. 135292 - 135292

Published: July 24, 2024

Language: Английский

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Microbial Immobilized Enzyme Biocatalysts for Multipollutant Mitigation: Harnessing Nature’s Toolkit for Environmental Sustainability

International Journal of Molecular Sciences, Journal Year: 2024, Volume and Issue: 25(16), P. 8616 - 8616

Published: Aug. 7, 2024

The ever-increasing presence of micropollutants necessitates the development environmentally friendly bioremediation strategies. Inspired by remarkable versatility and potent catalytic activities microbial enzymes, researchers are exploring their application as biocatalysts for innovative environmental cleanup solutions. Microbial enzymes offer substrate specificity, biodegradability, capacity to degrade a wide array pollutants, positioning them powerful tools bioremediation. However, practical applications often hindered limitations in enzyme stability reusability. Enzyme immobilization techniques have emerged transformative strategies, enhancing reusability anchoring onto inert or activated supports. These improvements lead more efficient pollutant degradation cost-effective processes. This review delves into diverse methods, showcasing success degrading various including pharmaceuticals, dyes, pesticides, microplastics, industrial chemicals. By highlighting potential immobilized biocatalysts, this underscores significance achieving cleaner sustainable future through mitigation micropollutant contamination. Additionally, research directions areas such engineering machine learning hold immense promise further broadening capabilities optimizing cleanup.

Language: Английский

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Bioremediation of Hazardous Pollutants Using Enzyme-Immobilized Reactors

Molecules, Journal Year: 2024, Volume and Issue: 29(9), P. 2021 - 2021

Published: April 27, 2024

Bioremediation uses the degradation abilities of microorganisms and other organisms to remove harmful pollutants that pollute natural environment, helping return it a state is free substances. Organism-derived enzymes can degrade eliminate variety transform them into non-toxic forms; as such, they are expected be used in bioremediation. However, since proteins, low operational stability catalytic efficiency enzyme-based systems need improvement. Enzyme immobilization methods often overcome these challenges. Several enzyme have been applied improve reduce remediation costs. Herein, we review recent advancements immobilized for bioremediation summarize preparing use catalysts pollutant systems. Additionally, advantages, limitations, future perspectives discussed.

Language: Английский

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3D printing and enzyme immobilization: An overview of current trends

Bioprinting, Journal Year: 2023, Volume and Issue: 33, P. e00289 - e00289

Published: June 8, 2023

Language: Английский

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3D bioprinting in bioremediation: a comprehensive review of principles, applications, and future directions

PeerJ, Journal Year: 2024, Volume and Issue: 12, P. e16897 - e16897

Published: Feb. 8, 2024

Bioremediation is experiencing a paradigm shift by integrating three-dimensional (3D) bioprinting. This transformative approach augments the precision and versatility of engineering with functional capabilities material science to create environmental restoration strategies. comprehensive review elucidates foundational principles 3D bioprinting technology for bioremediation, its current applications in prospective avenues future research technological evolution, emphasizing intersection additive manufacturing, functionalized biosystems, remediation; this delineates how can tailor bioremediation apparatus maximize pollutant degradation removal. Innovations biofabrication have yielded bio-based biodegradable materials conducive microbial proliferation sequestration, thereby addressing contamination adhering sustainability precepts. The presents an in-depth analysis application bioprinted constructs enhancing efforts, exemplifying synergy between biological systems engineered solutions. Concurrently, critically addresses inherent challenges incorporating into diverse ecological settings, including assessing their impact, durability, integration large-scale projects. Future perspectives discussed encompass exploration novel biocompatible materials, automation convergence cutting-edge fields such as nanotechnology other emerging fields. article posits cornerstone next-generation practices, offering scalable, customizable, potentially greener solutions reclaiming contaminated environments. Through review, stakeholders science, engineering, are provided critical appraisal state potential drive forward efficacy management practices.

Language: Английский

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