Jia-chen Shan, Yang Liu, Puqing Zhao, Hongli Zhou, Peng Wan
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The purification process of CFSBL was optimized by a single factor, Analytic Hierarchy Process (AHP) and Response Surface Methodology (RSM). 1,1-Diphenyl-2-Picrylhydrazyl (DPPH), hydroxyl radical, and reducing power methods were used to determine the antioxidant activity of CFSBL and PFSBL, respectively. and the sample concentration and elution velocity were 0.09 and 1.71 mL/min, respectively. The purity of PFSBL was 84.2%, which was 6.53 times higher than that before purification and the recovery rate was 69.5%. The scavenging IC 50 of DPPH, hydroxyl radical, and reducing the power of CFSBL were 0.016, 1.501, and 0.146 mg/mL, respectively. PFSBL were 0.002, 1.131 and 0.051 mg/mL, respectively. The antioxidant activity of PFSBL was improved compared with that of CFSBL. SBL can be considered a potential source of antioxidants in food and industry. 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引用次数: 0
摘要
中国沙棘(Hippophae rhamnoides L .)资源丰富,每年都有大量的沙棘果实被用来榨油和榨汁。然而,沙棘叶(SBL)富含黄酮类化合物,被作为废物丢弃。为了充分利用资源,变废为宝,研究了SBL黄酮的最佳纯化工艺,并比较了SBL粗黄酮(CFSBL)和纯化黄酮(PFSBL)的抗氧化活性。通过对黄酮类化合物含量、吸附率、解吸率和洗脱液回收率的比较,选择了最适合纯化CFSBL的大孔树脂。采用单因素法、层次分析法(AHP)和响应面法(RSM)对CFSBL的纯化工艺进行了优化。采用1,1-二苯基-2-苦基肼(DPPH)法、羟基自由基法和还原力法分别测定CFSBL和PFSBL的抗氧化活性。样品浓度为0.09,洗脱速度为1.71 mL/min。PFSBL的纯度为84.2%,是纯化前的6.53倍,回收率为69.5%。对DPPH、羟基自由基的ic50清除率为0.016、1.501、0.146 mg/mL,对CFSBL的还原能力为0.146 mg/mL。PFSBL分别为0.002、1.131和0.051 mg/mL。与CFSBL相比,PFSBL的抗氧化活性有所提高。SBL可以被认为是食品和工业中抗氧化剂的潜在来源。本研究的纯化工艺可以提高SBL的抗氧化活性。
Optimization of Purification Technology and Antioxidant Activity of Total Flavonoids from Sea Buckthorn Leaves
: China is rich in sea buckthorn ( Hippophae rhamnoides L .) resources and a large amount of sea buckthorn fruit is used to extract oil and juice every year. However, Sea Buckthorn Leaves (SBL), which are full of flavonoids, are discarded as waste. To make full use of resources and turn waste into valuables, the optimal purification process of flavonoids from SBL was studied and the antioxidant activities of Crude SBL Flavonoids (CFSBL) and Purified Flavonoids (PFSBL) were compared. The macroporous resin which was most suitable for the purification of CFSBL was selected by comparing the flavonoid content, adsorption rate, desorption rate, and recovery rate in eluant. The purification process of CFSBL was optimized by a single factor, Analytic Hierarchy Process (AHP) and Response Surface Methodology (RSM). 1,1-Diphenyl-2-Picrylhydrazyl (DPPH), hydroxyl radical, and reducing power methods were used to determine the antioxidant activity of CFSBL and PFSBL, respectively. and the sample concentration and elution velocity were 0.09 and 1.71 mL/min, respectively. The purity of PFSBL was 84.2%, which was 6.53 times higher than that before purification and the recovery rate was 69.5%. The scavenging IC 50 of DPPH, hydroxyl radical, and reducing the power of CFSBL were 0.016, 1.501, and 0.146 mg/mL, respectively. PFSBL were 0.002, 1.131 and 0.051 mg/mL, respectively. The antioxidant activity of PFSBL was improved compared with that of CFSBL. SBL can be considered a potential source of antioxidants in food and industry. The purification process in this study can enhance the antioxidant activity of SBL.
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