生物转化
微型反应器
纤维素
纳米纤维
竹子
化学
纤维素酶
酶
生物降解
有机化学
材料科学
纳米技术
催化作用
复合材料
作者
Quan Zhou,Zijing Zhao,Litao Wang,Jiandong Wang,Lina Fu,Jihong Cui,Guosheng Liu,Jie Yang,Yujie Fu
标识
DOI:10.1016/j.jobab.2025.03.004
摘要
The enzyme immobilization technique has been widely applied in biotechnology, biomedicine, and environmental remediation. In this research, carboxylated bamboo-based cellulose nanofibers (BCNFs) were obtained by one-step oxidation modification of bamboo fibers using ammonium persulphate. The surface carboxyl groups of the BCNFs were modified by a crosslinking agent and then combined with polyethylene imine (PEI) functionalized magnetic nanoparticles to construct a microreactor system for enzyme loading by the methods of electrostatic self-assembly and physical adsorption. Contrasted with free β -glucosidase, the microreactor possesses higher relative enzyme activity at pH 5.5 and 50 °C, and the storage stability is significantly higher, with >75% relative enzyme activity after storage at 4 °C for 15 d. In addition, the β -glucosidase loaded on the microreactor facilitates its separation from the reaction medium and subsequent reuse. After completing five cycles of use, it retained 76.47% of its initial activity. The biotransformation of geniposide reached 93.10%, and the genipin concentration increased 1.2 folds higher than that in the original plant extract. Therefore, PEI@Fe 3 O 4 @BCNFs microreactor immobilized with β -glucosidase can be successfully used to produce higher activity aglucone such as genipin from geniposide, and it might also have the potential to convert phytochemicals by the immobilized enzyme microreactor system with bamboo-based cellulose nanofibers in the natural production field.
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