|Table of Contents|

Optimization of Reflux Extraction Process for Three Alkaloids From Zanthoxylum nitidum by Response Surface Method

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2024年14
Page:
95-103
Research Field:
Publishing date:

Info

Title:
Optimization of Reflux Extraction Process for Three Alkaloids From Zanthoxylum nitidum by Response Surface Method
Author(s):
HU Fengyun1QIAO Liya1ZHANG Zhanjiang2DONG Qingsong2HUANG Baoyou2ZHU Yanxia2
(1.Guangxi Botanical Garden of Medicinal Plants/National Engineering Research Center of Southwest Endangered Medicinal Resource Development,Nanning,Guangxi 530023;2.Guangxi Botanical Garden of Medicinal Plants/National Center for Traditional Chinese Medicine Inheritance and Innovation,Nanning,Guangxi 530023)
Keywords:
response surface methodZanthoxylum nitidumreflux extractionnitidine chloridechelerythrine
PACS:
S 284.2
DOI:
10.11937/bfyy.20240160
Abstract:
Taking Zanthoxylum nitidum as the experimental material,the effects of reflux extraction time,extraction solvent concentration and solid-liquid ratio on the extraction rate of nitidine chloride,chelerythrine and sanguinarine were studied by response surface method,in order to obtain the optimal reflux extraction process of the three alkaloids,and provide reference for further development and utilization of alkaloids in Zanthoxylum nitidum.The results showed that the optimal reflux extraction condition of the three alkaloidsas follows,extraction time was 2.4 hours per time (repeated twice),extraction solvent was 67% ethanol,solid-liquid ratio was 1∶20 g·mL-1,and the yield of nitidine chloride,chelerythrine and sanguinarine were 0.381%,0.560%,0.058%,respectively.The results were closed to the predicted values of response surface method,it indicated that the three alkaloids response surface regression models fitted in this study were reliable.After optimization,the yield of nitidine chloride,chelerythrine and sanguinarine were increased by 14%,95% and 23% respectively,and the optimized extraction efficiency was high,which could be used for the preparation of three alkaloids in Zanthoxylum nitidum.

References:

[1]国家药典委员会.中华人民共和国药典(一部):2020年版[M].北京:中国医药科技出版社,2020.[2]姚荣成,胡疆.两面针化学成分及其药理活性研究概况[J].药学实践杂志,2004,22(5):264-267.[3]陈瑶,李梅珊,覃锋,等.近5年两面针的化学成分及药理活性研究进展[J].广西师范大学学报(自然科学版),2023,41(1):24-37.[4]黄琪,雷鹏,欧阳冬生.芸香科花椒属植物两面针抗肿瘤作用研究进展[J].肿瘤药学,2011,1(6):482-485.[5]马庆,魏伟锋,袁焕合,等.高效液相色谱法测定两面针药材中2种成分含量[J].中国药业,2022,31(10):81-85.[6]魏伟锋,韩正洲,许雷,等.基于UPLC技术定量分析两面针中5种化学成分[J].中药材,2019,42(6):1343-1346.[7]李秀霞,卢红梅,陆世惠.两面针生物碱不同提取方法的比较[J].天然产物研究与开发,2015,27(4):572-577.[8]陆世惠,龙盛京.从两面针中提取总生物碱的工艺研究[J].西北药学杂志,2012,27(6):514-516.[9]雷欣潮,刘华钢,赖茂祥,等.正交实验法优选两面针的提取工艺研究[J].时珍国医国药,2011,22(10):2494-2495.[10]刘绍华,覃青云,方堃,等.渗漉法提取两面针活性成分工艺的研究[J].中草药,2006,37(3):373-375.[11]姜鹏程,陆晔晗,常芮宁,等.当归藤总黄酮超声提取工艺优化[J].中成药,2023,45(12):4081-4085.[12]周志强,钱志伟,曹乐民.超高压萃取法提取山楂叶黄酮工艺研究[J].北方园艺,2020(7):116-123.[13]MANGANG K C S,CHAKRABORTYS,DEKAS C.Optimized microwave-assisted extraction of bioflavonoids from Albizia myriophylla bark using response surface methodology[J].Journal of Food Science and Technology,2020,57(6):2107-2117.[14]乔丽娅,胡凤云,沈卓,等.一测多评法同时测定两面针中5种成分[J].中成药,2021,43(7):1794-1798.[15]孙科,陈冉,陆世惠.双波长HPLC法同时测定两面针药材中5种成分的含量[J].中国药房,2017,28(3):393-396.[16]赵森,慕杨娜,姜黎,等.单因素法优化两面针提取工艺[J].世界中医药,2015,10(11):1777-1779.

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Last Update: 2024-08-08