Simultaneous Degradation of AFB1 and ZEN by CotA Laccase from Bacillus subtilis ZJ-2019-1 in the Mediator-Assisted or Immobilization System.

IF 3.9 3区 医学 Q2 FOOD SCIENCE & TECHNOLOGY Toxins Pub Date : 2024-10-16 DOI:10.3390/toxins16100445
Boquan Gao, Wei An, Jianwen Wu, Xiumin Wang, Bing Han, Hui Tao, Jie Liu, Zhenlong Wang, Jinquan Wang
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Abstract

The global prevalence of aflatoxin B1 (AFB1) and zearalenone (ZEN) contamination in food and feed poses a serious health risk to humans and animals. Recently, enzymatic detoxification has received increasing attention, yet most enzymes are limited to degrading only one type of mycotoxin, and free enzymes often exhibit reduced stability and activity, limiting their practicality in real-world applications. In this study, the laccase CotA gene from ZEN/AFB1-degrading Bacillus subtilis ZJ-2019-1 was cloned and successfully expressed in Escherichia coli BL21, achieving a protein yield of 7.0 mg/g. The recombinant CotA (rCotA) completely degraded AFB1 and ZEN, with optimal activity at 70 °C and pH 7.0. After rCotA treatment, neither AFB1 nor ZEN showed significantly cytotoxicity to mouse macrophage cell lines. Additionally, the AFB1/ZEN degradation efficiency of rCotA was significantly enhanced by five natural redox mediators: acetosyringone, syringaldehyde, vanillin, matrine, and sophoridin. Among them, the acetosyringone-rCotA was the most effective mediator system, which could completely degrade 10 μg of AFB1 and ZEN within 1 h. Furthermore, the chitosan-immobilized rCotA system exhibited higher degradation activity than free rCotA. The immobilized rCotA degraded 27.95% of ZEN and 41.37% of AFB1 in contaminated maize meal within 12 h, and it still maintained more than 40% activity after 12 reuse cycles. These results suggest that media-assisted or immobilized enzyme systems not only boost degradation efficiency but also demonstrate remarkable reusability, offering promising strategies to enhance the degradation efficiency of rCotA for mycotoxin detoxification.

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枯草芽孢杆菌 ZJ-2019-1 的 CotA 漆酶在介质辅助或固定系统中同时降解 AFB1 和 ZEN。
全球食品和饲料中普遍存在的黄曲霉毒素 B1(AFB1)和玉米赤霉烯酮(ZEN)污染对人类和动物的健康构成严重威胁。近来,酶解毒技术受到越来越多的关注,但大多数酶只限于降解一种霉菌毒素,而且游离酶往往表现出稳定性和活性降低,限制了其在实际应用中的实用性。在本研究中,克隆了降解 ZEN/AFB1 的枯草芽孢杆菌 ZJ-2019-1 的漆酶 CotA 基因,并在大肠杆菌 BL21 中成功表达,蛋白质产量达到 7.0 mg/g。重组 CotA(rCotA)能完全降解 AFB1 和 ZEN,在 70 °C 和 pH 7.0 条件下活性最佳。经 rCotA 处理后,AFB1 和 ZEN 对小鼠巨噬细胞系都没有明显的细胞毒性。此外,五种天然氧化还原介质(乙酰丁香酮、丁香醛、香兰素、马钱子碱和槐黄素)显著提高了 rCotA 降解 AFB1/ZEN 的效率。其中,乙酰丁香酮-rCotA 是最有效的介质系统,可在 1 小时内完全降解 10 μg AFB1 和 ZEN。固定化的 rCotA 在 12 小时内降解了受污染玉米粉中 27.95% 的 ZEN 和 41.37% 的 AFB1,并且在重复使用 12 次后仍能保持 40% 以上的活性。这些结果表明,介质辅助或固定化酶系统不仅能提高降解效率,还具有显著的可重复使用性,为提高 rCotA 在霉菌毒素解毒中的降解效率提供了可行的策略。
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来源期刊
Toxins
Toxins TOXICOLOGY-
CiteScore
7.50
自引率
16.70%
发文量
765
审稿时长
16.24 days
期刊介绍: Toxins (ISSN 2072-6651) is an international, peer-reviewed open access journal which provides an advanced forum for studies related to toxins and toxinology. It publishes reviews, regular research papers and short communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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