The effective and green biodegradation of polyethylene microplastics by the screening of a strain with its degrading enzymes

IF 3.7 3区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Biochemical Engineering Journal Pub Date : 2024-07-10 DOI:10.1016/j.bej.2024.109429

Yaliang Duan , Yanli Yin , Zifu Ni , Jianguang Liu , Haitao Gui , Dapeng Wu , Xingquan Wu , Le Wang

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Abstract

The polyethylene microplastics (MPs) degrading fungi named the strain DL-1 were isolated and screened to reduce the pollution of polyethylene MPs. The strain was preliminarily identified as Aspergillus niger by the sequence homology comparison and phylogenetic tree construction. The biodegradation rate of polyethylene MPs by the strain DL-1 was 7.65 ± 0.92 % after 30 days. The grooves and wrinkles appeared on the surface of MPs after the degradation. During the effective degradation process, the strain DL-1 produced the enzymes (plastic degrading enzymes) to biodegrade the polyethylene MPs. It was showed that the plastic degrading enzymes increased under the induction of polyethylene MPs in the medium, indicating that the enzymes played the important role in biodegradation of polyethylene MPs. Moreover, the ability of strain to biodegrade polyethylene MPs and the mechanism of biodegradation were investigated with varied measurements and characteristics. It enriched the way of microbial degradation of polyethylene MPs and provided the environmentally-friendly biodegradation with the green treatment for MPs.

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通过筛选具有降解酶的菌株实现聚乙烯微塑料的有效和绿色生物降解

为了减少聚乙烯微塑料（MPs）的污染，分离并筛选出了降解聚乙烯微塑料（MPs）的真菌，命名为菌株 DL-1。通过序列同源性比较和系统发生树的构建，初步确定该菌株为黑曲霉。30 天后，菌株 DL-1 对聚乙烯 MPs 的生物降解率为 7.65 ± 0.92%。降解后的聚乙烯多孔塑料表面出现了凹槽和皱纹。在有效降解过程中，菌株 DL-1 产生了酶类（塑料降解酶）来降解聚乙烯 MPs。研究表明，塑料降解酶在培养基中聚乙烯多孔塑料的诱导下增加，表明酶在聚乙烯多孔塑料的生物降解过程中发挥了重要作用。此外，还通过不同的测量方法和特征研究了菌株生物降解聚乙烯多孔塑料的能力和生物降解机理。该研究丰富了微生物降解聚乙烯多孔塑料的途径，提供了绿色处理聚乙烯多孔塑料的环境友好型生物降解方法。

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来源期刊

Biochemical Engineering Journal 工程技术-工程：化工

CiteScore

7.10

自引率

5.10%

发文量

380

审稿时长

34 days

期刊介绍： The Biochemical Engineering Journal aims to promote progress in the crucial chemical engineering aspects of the development of biological processes associated with everything from raw materials preparation to product recovery relevant to industries as diverse as medical/healthcare, industrial biotechnology, and environmental biotechnology. The Journal welcomes full length original research papers, short communications, and review papers* in the following research fields: Biocatalysis (enzyme or microbial) and biotransformations, including immobilized biocatalyst preparation and kinetics Biosensors and Biodevices including biofabrication and novel fuel cell development Bioseparations including scale-up and protein refolding/renaturation Environmental Bioengineering including bioconversion, bioremediation, and microbial fuel cells Bioreactor Systems including characterization, optimization and scale-up Bioresources and Biorefinery Engineering including biomass conversion, biofuels, bioenergy, and optimization Industrial Biotechnology including specialty chemicals, platform chemicals and neutraceuticals Biomaterials and Tissue Engineering including bioartificial organs, cell encapsulation, and controlled release Cell Culture Engineering (plant, animal or insect cells) including viral vectors, monoclonal antibodies, recombinant proteins, vaccines, and secondary metabolites Cell Therapies and Stem Cells including pluripotent, mesenchymal and hematopoietic stem cells; immunotherapies; tissue-specific differentiation; and cryopreservation Metabolic Engineering, Systems and Synthetic Biology including OMICS, bioinformatics, in silico biology, and metabolic flux analysis Protein Engineering including enzyme engineering and directed evolution.