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    超声波−半仿生法提取桑叶黄酮及其活性的研究

    Extraction and activity of flavonoids from Morus alba leaves by ultrasonic-semi-bionic method

    • 摘要:
        目的  对桑叶黄酮的提取工艺及其自由基清除能力,对α-葡萄糖苷酶和α-淀粉酶的活性抑制作用进行研究,旨在获得充分保持桑叶黄酮活性的新型制备方法,为桑叶资源开发利用提供理论依据。
        方法  采用超声波–半仿生法提取桑叶黄酮,考察液料比、超声时间、超声温度、超声功率4个因素对桑叶黄酮得率和DPPH·以及OH·的平均清除率的影响,通过响应面试验优化桑叶黄酮提取工艺,评价桑叶黄酮对α-葡萄糖苷酶和α-淀粉酶的抑制作用。
        结果  桑叶黄酮最佳提取工艺为液料比30 mL/g、提取总时间97 min(3个阶段的时间比例为1∶2∶2)、超声温度49 ℃、超声功率400 W,黄酮得率为(38.23 ± 0.42) mg/g,自由基平均清除率为(57.04 ± 0.97)%。桑叶黄酮对α-葡萄糖苷酶和α-淀粉酶活性抑制的IC50值为(1.081 ± 0.130) g/L和(1.204 ± 0.190) g/L。超声波–半仿生法比单一超声波法提取桑叶黄酮的自由基清除能力强,比单一半仿生法提取桑叶黄酮的得率高。
        结论  采用超声波辅助半仿生法提取的桑叶黄酮具有良好的自由基清除能力,且对α-葡萄糖苷酶和α-淀粉酶有抑制作用,与单一提取法相比,超声波–半仿生法提取桑叶黄酮具备更高的生物活性和得率。桑叶黄酮可开发为高糖人群调节血糖的产品,超声波–半仿生法可为工业制备桑叶黄酮提供良好的技术储备。

       

      Abstract:
        Objective  This project investigated the extraction process of Morus alba leaf flavonoids and their free radical scavenging ability, inhibition of α-glucosidase and α-amylase activity, aiming at obtaining a novel preparation method that fully maintained the activity of Morus alba leaf flavonoids, and providing a theoretical basis for the development and utilization of Morus alba leaf resources.
        Method  The ultrasonic-semi-bionic method was used to extract the flavonoids from the Morus alba leaves. We investigated the effects of four factors (liquid-to-material ratio, ultrasonic time, ultrasonic temperature, and ultrasonic power) on the yield of Morus alba leaf flavonoids and the average scavenging of DPPH· and OH· radicals. The extracting process was optimized using the response surface test to evaluate the inhibitory effects of Morus alba leaf flavonoids on α-glucosidase and α-amylase.
        Result  Optimal extraction conditions of Morus alba leaf flavonoids were as follows: ratio of liquid to solid was 30 mL/g, ultrasonic time was 97 min (the time ratio of the three stages was 1∶2∶2), ultrasonic temperature was 49 ℃, ultrasonic power was 400 W. Under conditions, the flavonoid yield up to (38.23 ± 0.42) mg/g was obtained with an average clearance rate of (57.04 ± 0.97) %. Under optimal conditions, the IC50 value for α-glucosidase inhibition by Morus alba leaf flavonoids was (1.081 ± 0.130) g/L, and that for α-amylase inhibition was (1.204 ± 0.190) g/L. The free radical scavenging ability of Morus alba leaf flavonoids extracted by ultrasonic-semi-bionic method was stronger than that of the ultrasonic method, and the yield of Morus alba leaf flavonoids extracted by ultrasonic-semi-bionic method was higher than that of the semi-bionic method.
        Conclusion  Morus alba leaf flavonoids extracted by ultrasonic-semi-bionic method have good free radical scavenging ability and inhibitory effect on α-glucosidase and α-amylase. Compared with the single extraction method, the Morus alba leaf flavonoids extracted by ultrasonic-semi-bionic method have higher bioactivity and yield. Morus alba leaf flavonoids can be developed as blood glucose regulating products for people with high glucose levels, and the ultrasonic-semi-bionic method can provide a better technical reserve for the industrial preparation of Morus alba leaf flavonoids.

       

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