| 引用本文: | 冯丹,栾真杰,龙若兰,李佩佩,罗西,孙菁.超临界CO2萃取条件下四种杜鹃枝叶总挥发油的GC-MS分析[J].中国现代应用药学,2024,41(13):7-14. |
| FENG Dan,LUAN ZhenJie,LONG RuoLan,LI PeiPei,LUO Xi,SUN Jing.GC-MS analysis of total volatile oil from branches and leaves of four rhododendron species under supercritical CO2 extraction[J].Chin J Mod Appl Pharm(中国现代应用药学),2024,41(13):7-14. |
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| 超临界CO2萃取条件下四种杜鹃枝叶总挥发油的GC-MS分析 |
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冯丹, 栾真杰, 龙若兰, 李佩佩, 罗西, 孙菁
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中国科学院西北高原生物研究所
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| 摘要: |
| 目的 明确烈香杜鹃、头花杜鹃、千里香杜鹃、陇蜀杜鹃等四种杜鹃植物枝叶部位挥发油成分。方法 利用超临界CO2萃取法分别得到上述植物叶部位及枝部位总挥发油,应用GC-MS法分析鉴定了所得总挥发油的化合物组成,并对不同部位、不同品种含量进行了比较。结果 利用超临界CO2萃取法,得到叶部位出油率最高的为千里香杜鹃(6.97%),枝部位出油率最高的为烈香杜鹃(20.53%)。分别在烈香杜鹃、头花杜鹃、千里香杜鹃、陇蜀杜鹃枝油中检测出35、80、58、40种化合物,以头花杜鹃化合物种类较为丰富;叶油中分别检测出48、57、62、50种化合物,以千里香杜鹃化合物种类较为丰富。烈香杜鹃枝、叶油中含量最高的均为角鲨烯(34.92%,26.90%),头花杜鹃枝油中含量最高的是1-二十醇(26.79%),叶油中含量最高的是乙酸十八酯(42.32%),千里香杜鹃枝、叶油中含量最高的为甜没药-3,10-二烯-2-酮(34.66%,28.20%),陇蜀杜鹃枝、叶油中含量最高的为15-oxoETE(38.20%,40.40%)。可见,不同部位挥发油中,以头花杜鹃枝油、叶油含量差异较大。而不同品种挥发油中,四种杜鹃含量最高的化合物则不尽相同。结论 可以依照不同种、不同部位杜鹃挥发油成分的含量的差异,有目的性地进行开发利用,本研究结果可为杜鹃资源合理开发利用提供科学依据。 |
| 关键词: 烈香杜鹃 头花杜鹃 千里香杜鹃 陇蜀杜鹃 挥发油 GC-MS |
| DOI:10.13748/j.cnki.issn1007-7693.20230038 |
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| 基金项目:国家自然科学基金面上项目(No.32270402),青海省科研基础条件平台项目(2022-2024年度) |
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| GC-MS analysis of total volatile oil from branches and leaves of four rhododendron species under supercritical CO2 extraction |
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FENG Dan, LUAN ZhenJie, LONG RuoLan, LI PeiPei, LUO Xi, SUN Jing
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Northwest Institute of Plateau Biology Chinese Academy of Sciences
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| Abstract: |
| ABSTRACT: OBJECTIVE To clarify the components of volatile oil in branches and leaves of Rhododendron anthopogonoides, R. capitatum, R. thymifolium and R. przewalskii. METHODS The total volatile oil in leaves and branches of these plants were obtained by supercritical CO2 extraction. After that, the chemical composition of the total volatile oil was analyzed and identified by GC-MS, and the contents of different parts and varieties were compared.. RESULTS The results showed that the highest oil yield of leaves was R. thymifolium(6.97%), and the highest oil yield of branches was R. anthopogonoides(20.53%). Thirty-five, eighty, fifty-eight and forty compounds were detected in the branch oil of R. anthopogonoides, R. capitatum、R. thymifolium and R. przewalskii respectively, among which R. capitatum was rich in compounds. Forty-eight, fifty-seven, sixty-two and fifty compounds were detected in the leaf oil, among which the compounds of R. anthopogonoides were the richest. Among the detected components, Squalene (34.92%, 26.90%) was the highest content in the branches and leaves of R. anthopogonoides. 1- eicosanol(26.79%) was the highest content in the branch oil of R. capitatum, and octadecyl acetate(42.32%) was the highest content in the leaf oil. The highest content of Bisabola-3,10- diene -2- one (34.66%, 28.20%) was found in the branches and leaves of R. thymifolium, and 15-oxoETE(38.20%, 40.40%) was the highest content in the branches and leaves of R. przewalskii. It can be seen that the contents of oil in branches and leaves of R. capitatum were quite different in different parts. In the comparison of different varieties, the compounds with the highest content of four rhododendrons were all different. CONCLUSION According to the difference of the content of active components of different rhododendrons and parts, we can choose the appropriate species and parts for purposeful development and utilization. The research results can provide scientific basis for rational development and utilization of rhododendron resources. |
| Key words: Rhododendron anthopogonoides R. capitatum R. thymifolium R. przewalskii volatile oil GC-MS |
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