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采用响应面法优化海藻酸钠-聚乙烯固定化纤维素酶,提高微晶纤维素的酶解效率。

Optimization of Cellulase Immobilization with Sodium Alginate-Polyethylene for Enhancement of Enzymatic Hydrolysis of Microcrystalline Cellulose Using Response Surface Methodology.

机构信息

Department of Environmental Science and Engineering, Beijing University of Chemical Technology, Beijing, 100029, China.

出版信息

Appl Biochem Biotechnol. 2021 Jul;193(7):2043-2060. doi: 10.1007/s12010-021-03517-9. Epub 2021 Feb 5.

DOI:10.1007/s12010-021-03517-9
PMID:33544365
Abstract

A novel method of immobilizing cellulase on sodium alginate (SA)-polyethylene glycol (PEG) enabled the cellulase to be used repeatedly. The matrix of the immobilized cellulase was detected and characterized using Fourier transform infrared spectroscopy and scanning electron microscopy. In comparison with SA-immobilized cellulase, the relative enzyme activity and immobilization rate increased by 25% and 18%, respectively. The application range of the immobilized enzyme in terms of temperature and pH was larger than that of the free enzyme, and its thermal stability increased. The immobilized enzyme was used in enzymatic hydrolysis, in which MCC was used as the substrate. The optimal conditions for enzymatic hydrolysis were as follows: the dosage of SA-PEG-immobilized cellulase was 3.55 g/g total solids of the substrate, the concentration of the substrate was 13.16%, and the pH was 5.11. In comparison with the yield of reducing sugars in the first round of hydrolysis of MCC by SA-immobilized cellulase, the yield in the hydrolysis of MCC by SA-PEG-immobilized cellulase increased by 133%. After five cycles of repeated use, the total yield of reducing sugars when MCC was hydrolyzed by SA-PEG-immobilized cellulase was similar to that achieved with free cellulase. In comparison with the free enzyme, the highest yield when the immobilized enzyme was used was 22.68%. Therefore, the immobilized cellulase exhibited high performance in enzymatic hydrolysis.

摘要

一种将纤维素酶固定在海藻酸钠(SA)-聚乙二醇(PEG)上的新方法使纤维素酶能够重复使用。使用傅里叶变换红外光谱和扫描电子显微镜对固定化纤维素酶的基质进行了检测和表征。与 SA 固定化纤维素酶相比,相对酶活性和固定化率分别提高了 25%和 18%。固定化酶在温度和 pH 值方面的应用范围大于游离酶,其热稳定性也有所提高。固定化酶用于酶解,以 MCC 为底物。酶解的最佳条件如下:SA-PEG 固定化纤维素酶的用量为底物总固体的 3.55 g/g,底物浓度为 13.16%,pH 值为 5.11。与 SA 固定化纤维素酶第一次水解 MCC 产生的还原糖产量相比,SA-PEG 固定化纤维素酶水解 MCC 产生的还原糖产量提高了 133%。重复使用五轮后,SA-PEG 固定化纤维素酶水解 MCC 产生的还原糖总量与游离纤维素酶相当。与游离酶相比,固定化酶在使用时的最高产率为 22.68%。因此,固定化纤维素酶在酶解中表现出了较高的性能。

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