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中国精品科技期刊2020
邹平,徐莹,陈文涛,等. 牡丹籽粕中黄酮类化合物的提取工艺优化及膜法分离纯化[J]. 食品工业科技,2023,44(18):258−267. doi: 10.13386/j.issn1002-0306.2022100241.
引用本文: 邹平,徐莹,陈文涛,等. 牡丹籽粕中黄酮类化合物的提取工艺优化及膜法分离纯化[J]. 食品工业科技,2023,44(18):258−267. doi: 10.13386/j.issn1002-0306.2022100241.
ZOU Ping, XU Ying, CHEN Wentao, et al. Optimization of Extraction Process and Purification of Flavonoids from Peony Seed Meal by Membrane Method[J]. Science and Technology of Food Industry, 2023, 44(18): 258−267. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022100241.
Citation: ZOU Ping, XU Ying, CHEN Wentao, et al. Optimization of Extraction Process and Purification of Flavonoids from Peony Seed Meal by Membrane Method[J]. Science and Technology of Food Industry, 2023, 44(18): 258−267. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022100241.

牡丹籽粕中黄酮类化合物的提取工艺优化及膜法分离纯化

Optimization of Extraction Process and Purification of Flavonoids from Peony Seed Meal by Membrane Method

  • 摘要: 本研究采用微滤-纳滤二级膜分离的方法对牡丹籽粕中的黄酮类化合物进行分离提纯。通过单因素实验研究料液比、提取温度、乙醇体积分数和提取时间对总黄酮提取量的影响,在单因素的基础上采用响应面法对提取工艺进行优化及验证。选用聚偏二氟乙烯(PVDF)、聚醚砜(PES)、聚四氟乙烯(PTFE)、聚丙烯(PP)、混合纤维素(MCE)、聚丙烯腈(PAN)、水系醋酸纤维(CA)和聚酰胺(PA)8种材料微滤膜对牡丹籽粕黄酮类化合物(PSMF)提取液进行初级分离。纳滤膜为实验室自制的有机硅/PA复合膜。结果表明,PSMF最佳的提取条件为料液比1:15 g/mL,提取温度50 ℃,乙醇体积分数为70%,提取时间为30 min,PSMF提取量为(240.28±2.25)μg/mL。将粗提液稀释10倍用于比较8种不同微滤膜对于PSMF粗提液的过滤效果,发现PA膜具有较好的分离效果,复合膜对PSMF存在较好的纯化效果,且分离后黄酮水溶性提升至90%以上。经过800 ℃煅烧之后,原料液的残余质量为1.43%,PA膜分离液的残余质量为0.76%,BTESE/PA复合膜降至0.26%,杂质更少纯度较高。对比其分离前后的抗氧化活性,分离后的·OH、DPPH·清除率以及还原力有所提升,O2·清除率由79.94%下降至64.82%。本研究对牡丹籽粕中的活性成分进行分析,PSMF是一种新型的植物黄酮资源,组成丰富,具有一定的研究空间。

     

    Abstract: In this study, the flavonoids in peony seed meal were separated and purified by microfiltration-nanofiltration secondary membrane separation method. The effects of material-liquid ratio, extraction temperature, ethanol volume fraction and extraction time on the extraction amount of total flavonoids were investigated by single-factor experiments, and the extraction process was optimized and validated by response surface methodology on the basis of single factors. Eight types of microfiltration membranes, including polyvinylidene fluoride (PVDF), polyethersulfone (PES), polytetrafluoroethylene (PTFE), polypropylene (PP), mixed cellulose (MCE), polyacrylonitrile (PAN), aqueous acetate (CA) and polyamide (PA), were selected for the primary separation of PSMF extracts. The nanofiltration membranes were homemade organosilicon/PA composite membranes in the laboratory. The results showed that the optimum extraction conditions for PSMF were 1:15 g/mL, 50 ℃, 70% ethanol volume fraction, 30 min, (240.28±2.25) μg/mL of PSMF extraction amount. The PA membrane had a better separation effect, and the composite membrane had a better purification effect on PSMF, and the water solubility of flavonoids was increased to more than 90% after separation. After calcination at 800 ℃, the residual mass of the raw material solution was 1.43% and that of the PA membrane separation was 0.76%, and the BTESE/PA composite membrane was reduced to 0.26%, with fewer impurities and higher purity. Comparing its antioxidant activity before and after separation, the ·OH, DPPH· scavenging rate and reducing power were improved after separation, and the O2· scavenging rate decreased from 79.94% to 64.82%. In this study, the active components in peony seed meal were analyzed. PSMF would be a novel phytoflavonoid resource with rich composition and certain research space.

     

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