超临界流体萃取百合中的秋水仙碱
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摘要
本文研究了超临界二氧化碳流体萃取百合中的秋水仙碱的工艺条件,并用正交法对工艺条件进行了优化筛选,找到了超临界二氧化碳流体萃取百合中秋水仙碱的最佳工艺条件:在40℃、18MPa压力条件下,以乙醇为提携剂萃取2h。同时,将各因素对萃取效果影响的大小进行了比较,在选定的工艺条件内,各因素的影响秩序为:萃取温度>萃取时间>萃取压力>提携剂用量。
通过对紫外分光光度法和高效液相色谱法测定结果的比较,本文认为高效液相色谱法更适合于萃取物中秋水仙碱含量的分析。并用高效液相色谱法测得百合中秋水仙碱的含量为0.049%。
同时,本文用传统的有机溶剂提取法对百合中的秋水仙碱进行了提取研究,并与超临界流体萃取方法进行了比较。结果表明:超临界流体萃取秋水仙碱步骤简单、条件温和,一般超临界萃取设备均可达到这些条件,易于实现工业化。超临界流体萃取不但萃取效率高,而且超临界萃取物中杂质成分较少。
本文对百合食品加工产生的废液进行了提取秋水仙碱的研究,认为从这种废液中提取秋水仙碱是可行的。
本文研究了用薄层色谱法进一步分离提取物中秋水仙碱的分离、制备条件,找到了一种制备少量样品的合适方法。
使用超临界二氧化碳流体萃取百合中的秋水仙碱,不但简化了提取工艺流程,提高了萃取效率,而且该法产生的“三废”少,对环境友好。因此,此法可应用于秋水仙碱的提取。
Supercritical carbon dioxide fluid extraction of colchicine from the
bulbs of lily was studied and the extraction technological conditions were
optimized by vertical-method. The contents of colchicine in extracts were
determined directly by high performance liquid chromatography (HPLC).
The result showed that at 40, ISMPa and with ethanol as pre-soaker,
the extraction efficiency is the highest after lily powder was alkalified by
ammonia liquor. Under the given conditions, colchicine concentration
increased greatly from 0.049% in natural sample to 6.4% in extract with
- supercritical fluid extraction(SFE). The comparison of SFE and organic
solvent extraction suggested that the former is a quick, safe, non-toxic
and environmental friendly method with higher yield and selectivity. So
supercritical fluid extraction of colchicine from the corms of lily is
practicable.
Colchicine was also successfully extracted from the waste water which was produced in the course of lily food production.
Pure colchicine was prepared from the extracts through thin-layer chromatography and its proper procedure was found.
通过对紫外分光光度法和高效液相色谱法测定结果的比较,本文认为高效液相色谱法更适合于萃取物中秋水仙碱含量的分析。并用高效液相色谱法测得百合中秋水仙碱的含量为0.049%。
同时,本文用传统的有机溶剂提取法对百合中的秋水仙碱进行了提取研究,并与超临界流体萃取方法进行了比较。结果表明:超临界流体萃取秋水仙碱步骤简单、条件温和,一般超临界萃取设备均可达到这些条件,易于实现工业化。超临界流体萃取不但萃取效率高,而且超临界萃取物中杂质成分较少。
本文对百合食品加工产生的废液进行了提取秋水仙碱的研究,认为从这种废液中提取秋水仙碱是可行的。
本文研究了用薄层色谱法进一步分离提取物中秋水仙碱的分离、制备条件,找到了一种制备少量样品的合适方法。
使用超临界二氧化碳流体萃取百合中的秋水仙碱,不但简化了提取工艺流程,提高了萃取效率,而且该法产生的“三废”少,对环境友好。因此,此法可应用于秋水仙碱的提取。
Supercritical carbon dioxide fluid extraction of colchicine from the
bulbs of lily was studied and the extraction technological conditions were
optimized by vertical-method. The contents of colchicine in extracts were
determined directly by high performance liquid chromatography (HPLC).
The result showed that at 40, ISMPa and with ethanol as pre-soaker,
the extraction efficiency is the highest after lily powder was alkalified by
ammonia liquor. Under the given conditions, colchicine concentration
increased greatly from 0.049% in natural sample to 6.4% in extract with
- supercritical fluid extraction(SFE). The comparison of SFE and organic
solvent extraction suggested that the former is a quick, safe, non-toxic
and environmental friendly method with higher yield and selectivity. So
supercritical fluid extraction of colchicine from the corms of lily is
practicable.
Colchicine was also successfully extracted from the waste water which was produced in the course of lily food production.
Pure colchicine was prepared from the extracts through thin-layer chromatography and its proper procedure was found.
引文
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[12] 张仲海.外磁场引导定位秋水仙碱-磁微粒对裸鼠乳腺癌的抑制作用.第四军医大学学报,1995,16(2):114
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[14] 史庆华.秋水仙碱(CoM)诱发小鼠骨髓细胞C-有丝分裂效应的研究.细胞生物学杂志,1996,18(4):172
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[17] 无小明,马开宁.秋水仙碱的新用途.基层中药杂志,2001,15(4):54
[18] 唐燕琴.痛风的药物治疗.海峡药物,2001,13(2):109-110
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