大孔树脂纯化芹菜籽黄酮的工艺
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摘要
芹菜籽的药理作用非常广泛,有较高的使用价值.黄酮类化合物是一类广泛存在的天然抗氧化剂,具有多种生理功能.本文利用大孔树脂纯化芹菜籽黄酮,以回收率为指标进行正交实验,结果表明:大孔树脂纯化芹菜籽黄酮的最佳纯化工艺为:上样液浓度8. 01 mg·L-1、上样液pH值4. 8、上样液速率2. 5 m L·min-1、洗脱液速率1 m L·min-1、洗脱液体积分数87%.在该条件下,纯化样品中的黄酮纯度由2. 12%提高到21. 7%,提高了9. 2倍,总黄酮回收率达到94. 9%.因此,大孔树脂纯化芹菜籽黄酮类化合物效果较好.
Celery seed is widely used as food and medicine as well. Flavonoids are a kind of natural antioxidants with a wide range of physiological functions. In the curren tresearch,as celery seed flavonoid was purified by macroporous resin,orthogonal experiments were carried out with the recovery as the index to determine the optimal purification process,during which the concentration of sample solution was 8. 01 mg·L-1,the pH value of sample solution 4. 8,the rate of sample solution 2. 5 m L·min-1,the rate of eluent 1 mL·min-1,and the elution liquid integral number 87%. Under the aforementioned condition,the purity of flavonoids in the sample increased from2. 12% to 21. 7% —9. 2 times higher,and the total flavonoid recovery reached 94. 9%. It is concluded that macroporous resin is suitable for separating and purifying celery seed flavonoid.
Celery seed is widely used as food and medicine as well. Flavonoids are a kind of natural antioxidants with a wide range of physiological functions. In the curren tresearch,as celery seed flavonoid was purified by macroporous resin,orthogonal experiments were carried out with the recovery as the index to determine the optimal purification process,during which the concentration of sample solution was 8. 01 mg·L-1,the pH value of sample solution 4. 8,the rate of sample solution 2. 5 m L·min-1,the rate of eluent 1 mL·min-1,and the elution liquid integral number 87%. Under the aforementioned condition,the purity of flavonoids in the sample increased from2. 12% to 21. 7% —9. 2 times higher,and the total flavonoid recovery reached 94. 9%. It is concluded that macroporous resin is suitable for separating and purifying celery seed flavonoid.
引文
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[3]徐国良.芹菜籽油进行富集与分离方法的研究[J].江西化工,2019(1):166-168.
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[6]陈文,王湘君,李凌燕,等.甲醇超声溶解-HPLC法测定蜂胶黄酮类化合物含量[J].海南热带海洋学院学报,2017,24(5):81-87.
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[11]李侠,臧学丽,徐祎博,等.AB-8大孔树脂纯化绿豆皮黄酮工艺优化及纯化前后抗氧化能力比较[J].食品科学,2018,39(10):283-290.
[12]徐柯,袁美,曾凡坤.无籽刺梨渣中黄酮的纯化及其抗氧化性[J].食品科技,2018,43(10):266-272.
[13]王沙沙,刘洋,牛真真,等.大孔吸附树脂分离纯化猪毛菜总黄酮及其抗氧化活性[J].精细化工,2018,35(01):58-64.
[14]于淑池,王茜.仙人掌果发酵酒的研制[J].海南热带海洋学院学报,2018,25(5):101-106.
[2]祁伟,董岩.芹菜籽挥发油化学成分及其降低亚硝酸钠活性分析[J].食品工业科技,2013,34(10):89-92.
[3]徐国良.芹菜籽油进行富集与分离方法的研究[J].江西化工,2019(1):166-168.
[4]杜鹃,宋春梅,张岚,等.芹菜籽黄酮体外抗氧化活性研究[J].食品研究与开发,2013,34(21):3-6.
[5]王婷.柠檬黄酮在提取、纯化及其在烟草中的应用[D].长沙:湖南农业大学,2015:6-7.
[6]陈文,王湘君,李凌燕,等.甲醇超声溶解-HPLC法测定蜂胶黄酮类化合物含量[J].海南热带海洋学院学报,2017,24(5):81-87.
[7]黄朝晖,裴志胜,付蕊.HPLC法初步建立忧遁草中黄酮类化合物指纹图谱[J].海南热带海洋学院学报,2018,25(2):102-105
[8]郭君,罗跃中.三七中总黄酮提取工艺研究[J].食品工程,2010(3):34-37.
[9]乌莉娅·沙衣提,耿萍,等.维药芹菜籽总黄酮含量测定及提取工艺研究[J].时珍国医国药,2007(9):2102-2103.
[10]薛淑萍,葛文光.D101型吸附树脂纯化桑叶中黄酮类化合物的研究[J]辽宁师范大学学报(自然科学版),2000,23(2):189-291.
[11]李侠,臧学丽,徐祎博,等.AB-8大孔树脂纯化绿豆皮黄酮工艺优化及纯化前后抗氧化能力比较[J].食品科学,2018,39(10):283-290.
[12]徐柯,袁美,曾凡坤.无籽刺梨渣中黄酮的纯化及其抗氧化性[J].食品科技,2018,43(10):266-272.
[13]王沙沙,刘洋,牛真真,等.大孔吸附树脂分离纯化猪毛菜总黄酮及其抗氧化活性[J].精细化工,2018,35(01):58-64.
[14]于淑池,王茜.仙人掌果发酵酒的研制[J].海南热带海洋学院学报,2018,25(5):101-106.