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中国精品科技期刊2020
谢娜,程俊文,徐娟,等. 酶法辅助提取人工培育蝉花多糖工艺优化及其动力学、热力学、抗氧化研究[J]. 华体会体育,2024,45(4):151−160. doi: 10.13386/j.issn1002-0306.2023040116.
引用本文: 谢娜,程俊文,徐娟,等. 酶法辅助提取人工培育蝉花多糖工艺优化及其动力学、热力学、抗氧化研究[J]. 华体会体育,2024,45(4):151−160. doi: 10.13386/j.issn1002-0306.2023040116.
XIE Na, CHENG Junwen, XU Juan, et al. Process Optimization of Enzyme-Assisted Extraction of Polysaccharides from Artificially-Cultivated Cordyceps cicadae and Its Kinetic, Thermodynamic and Antioxidant Activities Analysis[J]. Science and Technology of Food Industry, 2024, 45(4): 151−160. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023040116.
Citation: XIE Na, CHENG Junwen, XU Juan, et al. Process Optimization of Enzyme-Assisted Extraction of Polysaccharides from Artificially-Cultivated Cordyceps cicadae and Its Kinetic, Thermodynamic and Antioxidant Activities Analysis[J]. Science and Technology of Food Industry, 2024, 45(4): 151−160. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023040116.

酶法辅助提取人工培育蝉花多糖工艺优化及其动力学、热力学、抗氧化研究

Process Optimization of Enzyme-Assisted Extraction of Polysaccharides from Artificially-Cultivated Cordyceps cicadae and Its Kinetic, Thermodynamic and Antioxidant Activities Analysis

  • 摘要: 目的:优化酶法辅助提取人工培育蝉花多糖的工艺,考察料液比、酶添加量、酶解温度、提取时间等单因素对多糖得率的影响。方法:借助Box-Behnken设计的四因素三水平法建立了该多糖提取工艺的理论模型,并研究多糖对三种自由基的清除效果,根据Fick第二定律建立了人工培育蝉花提取的动力学模型,并根据速率常数、相对萃余率、活化能等参数,研究其动力学和热力学性质。结果:经响应面分析得到该多糖最佳提取工艺为:料液比1:30 g/mL、酶添加量1.6%、酶解温度67 ℃、提取时间90 min,在此条件下蝉花多糖的得率可达7.91%,与理论值接近。在该工艺下的人工蝉花粗多糖的DPPH自由基和羟自由基的IC50值分别为0.54和0.60 mg/mL,ORAC值是45.62 Trolox μmol/g,具有良好的体外抗氧化活性。结论:利用酶法辅助提取人工培育蝉花多糖,为该类已商业化的蝉花资源的多糖组分开发提供了理论基础。

     

    Abstract: Objective: To optimize the enzyme-assisted extraction process of polysaccharides from artificially-cultivated Cordyceps cicadae was conducted in this study. Four different parameters were considered to evaluate the yield of polysaccharides including liquid to solid ratio, enzyme dosage, enzymatic temperature and extraction time. Methods: A four-factor-three-level experimental design was employed to establish a mathematical model by Box-Behnken method, and the scavenging capacity of polysaccharides against three radicals was examined. Afterward, Fick's second law was used to build the kinetic model for the extraction of polysaccharide from artificially-cultivated Cordyceps cicadae. The parameters including rate constants, relative extraction rate, and activation energy were employed to analyze the kinetic and thermodynamic features. Results: Based on the response surface analysis, the optimal extraction process was presented to be as following: Liquid to solid ratio 1:30 g/mL, enzyme dosage 1.6%, enzymatic digestion temperature 67 ℃ and extraction time 90 min. The polysaccharide yield under the above condition was 7.91%, which was close to the predicted value. Moreover, the results of antioxidant capacities indicated that the obtained crude polysaccharides under optimal conditions showed strong DPPH radical scavenging and hydroxyl radical scavenging with IC50 values for 0.60 and 0.54 mg/mL, respectively, and its ORAC value was 45.62 Trolox μmol/g, suggesting potent antioxidant activity in vitro. Conclusion: The study of enzyme-assisted extraction of artificially-cultivated Cordyceps cicadae flower polysaccharides provide theoretical support for the production of polysaccharide fractions from this kind of commercialized Cordyceps cicadae resources.

     

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