Synthesis and characterisation of magnetic κ-carrageenan nanocomposites for chitinase33 enzyme immobilisation

Q4 Chemistry

International Journal of Nano and Biomaterials Pub Date : 2020-12-28 DOI:10.1504/ijnbm.2020.10034543

R. Mohammadzadeh, Ahad Arazpour, A. Akbari

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引用次数: 0

Abstract

Chitinases are chitin-degrading enzymes that have wide biotechnological applications in the fields of medicine, agriculture and the industry. Production of chitinase on an industrial scale requires high protein expression. Pichia pastoris yeast is an important host for the rapid production and high levels of recombinant proteins. In this project, the fungal chit33 enzyme was expressed and purified in Pichia pastoris X-33, and the purified enzyme was immobilised to enhance the sustainability, activity, and reuse on the magnetite κ-carrageenan/chitosan nanocomposite as a biocatalyst. The synthesised nanoparticle was characterised using FTIR, SEM and EDS analysis. According to the results of enzyme activity measurement under different pH conditions, the temperature and time of the stabilised enzyme showed better activity and stability than the free enzyme. Compared to free enzyme and chitosan beads, in the magnetic κ-carrageenan/chit36 substrate the specific activity, pH tolerance, optimum temperature of the enzyme was improved. The enzyme stabilised in the magnetic cariogenic/chit33 substrate at 70°C maintains about 80% of its enzyme activity relative to the magnetic chitosan/chit36 bead and maintains about 40% of its activity after eight cycles of re-use of the enzyme.

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几丁质酶33固定化磁性κ-卡拉胶纳米复合材料的合成与表征

几丁质酶是几丁质降解酶，在医药、农业和工业等生物技术领域有着广泛的应用。几丁质酶在工业规模上的生产需要高蛋白表达。毕赤酵母是快速生产和高水平重组蛋白的重要宿主。本课题在毕赤酵母X-33中表达和纯化了真菌chit33酶，并将纯化后的酶作为生物催化剂固定在磁铁矿κ-卡拉胶/壳聚糖纳米复合材料上，以提高酶的可持续性、活性和重用性。利用FTIR、SEM和EDS对合成的纳米颗粒进行了表征。根据不同pH条件下酶活性测定结果，稳定酶的温度和时间比游离酶表现出更好的活性和稳定性。与游离酶和壳聚糖微球相比，磁性κ-卡拉胶/chit36底物中酶的比活性、pH耐受性和最适温度均有所提高。在70°C下稳定在磁性壳聚糖/chit33底物中的酶相对于磁性壳聚糖/chit36头保持了约80%的酶活性，并且在重复使用8个周期后保持了约40%的酶活性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Nano and Biomaterials Chemistry-Physical and Theoretical Chemistry

CiteScore

1.20

自引率

0.00%

发文量

期刊介绍： In recent years, frontiers of research in engineering, science and technology have been driven by developments in nanomaterials, encompassing a diverse range of disciplines such as materials science, biomedical engineering, nanomedicine and biology, manufacturing technology, biotechnology, nanotechnology, and nanoelectronics. IJNBM provides an interdisciplinary vehicle covering these fields. Advanced materials inspired by biological systems and processes are likely to influence the development of novel technologies for a wide variety of applications from vaccines to artificial tissues and organs to quantum computers. Topics covered include Nanostructured materials/surfaces/interfaces Synthesis of nanostructures Biological/biomedical materials Artificial organs/tissues Tissue engineering Bioengineering materials Medical devices Functional/structural nanomaterials Carbon-based materials Nanomaterials characterisation Novel applications of nanomaterials Modelling of behaviour of nanomaterials Nanomaterials for biomedical applications Biological response to nanomaterials.