唇形科香料植物挥发油成分与遗传相关性分析

温美娟<sup>1</sup>; 沈 奇<sup>1</sup>; 邹秀崽<sup>1</sup>; 李春雨<sup>1</sup>; 张宇轩<sup>1</sup>; 潘启取<sup>2</sup>; 陈胜文<sup>2*</sup>

引用本文:	温美娟, 沈奇, 邹秀崽, 李春雨, 张宇轩, 潘启取, 陈胜文.唇形科香料植物挥发油成分与遗传相关性分析[J].广西植物,2025,45(2):262-274.[点击复制]
	WEN Meijuan, SHEN Qi, ZOU Xiuzai, LI Chunyu, ZHANG Yuxuan, PAN Qiqu, CHEN Shengwen.Volatile oil components and genetic correlation analysis in aromatic plants of Lamiaceae family[J].Guihaia,2025,45(2):262-274.[点击复制]

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唇形科香料植物挥发油成分与遗传相关性分析
温美娟¹, 沈奇¹, 邹秀崽¹, 李春雨¹, 张宇轩¹, 潘启取², 陈胜文^2*
1. 广州中医药大学中药学院/药用植物生理生态研究所, 广州 510006;2. 广州市农业科学研究院, 广州 510006

摘要:

唇形科香料植物的挥发油广泛应用于香精香料行业。为了明确27种唇形科香料植物的亲缘关系和挥发性成分及二者之间的相关性,该研究依托psbA-trnH条形码明确供试香料植物种属,采用邻接法构建系统聚类树分析27种供试材料的亲缘关系,采用正己烷萃取法,结合气相色谱-质谱联用技术,通过谱库、保留指数和文献检索进行定性,分析27种唇形科芳香植物叶片的挥发性萜类成分,并比较亲缘关系较近的物种所含成分组成的差异。结果表明:(1)27种唇形科香料植物共检测到64种挥发性萜类物质。(2)香槟薄荷被检测到的种类最多(11种),齿叶薰衣草(9种)和迷迭香(9种)次之。(3)β-石竹烯和(-)-菊酯D分别为14种和15种植物共有成分。综上认为,同属的唇形科香料植物主要成分有一定相似,亲缘关系较近的唇形科芳香植物含有的挥发性萜类类型组成也较为相似。该研究结果不仅为唇形科香料植物的开发利用提供了参考,还为植物萜类的代谢研究提供了依据。

关键词: 唇形科香料植物, 挥发油成分, DNA条形码, 气相色谱-质谱,萜类代谢

DOI：10.11931/guihaia.gxzw202403031

分类号:Q943

文章编号:1000-3142(2025)02-0262-13

基金项目:国家自然科学基金(U22A20446,31860391)。

Volatile oil components and genetic correlation analysis in aromatic plants of Lamiaceae family

WEN Meijuan¹, SHEN Qi¹, ZOU Xiuzai¹, LI Chunyu¹, ZHANG Yuxuan¹, PAN Qiqu², CHEN Shengwen^2*

1. Institute of Medical Plant Physiology and Ecology, School of Pharmaceutical Sciences, Guangzhou University of Chinese Medicine, Guangzhou 510006, China;2. Guangzhou Academy of Agricultural Sciences, Guangzhou 510006, China 1. Institute of Medical Plant Physiology and Ecology, School of Pharmaceutical Sciences, Guangzhou University of Chinese Medicine, Guangzhou 510006, China; 2. Guangzhou Academy of Agricultural Sciences, Guangzhou 510006, China

Abstract:

The volatile oil of Lamiaceae plant is widely used in flavor and fragrance industry. In order to clarify the kinship and volatile components of 27 aromatic plants of Lamiaceae family and the correlation between them. psbA-trnH barcode was used to identify the species of the experimental materials and the neighbor-joining method was used to construct a phylogeny tree to analyze the genetic relationship of them. The volatile components from the leaves of 27 aromatic plants was extracted by n-Hexane and analyzed by GC-MS. The volatile components were identified and compared by mass spectrum library, retention time and literature searchers. The results were as follows:(1)Among the 27 aromatic plants, 64 volatile terpenoids were detected.(2)Mentha &#215; piperita ‘Champagne Mint' contained the most species composition,which was 11, followed by Lavandula dentata(9), Rosmarinus officinalis (9).(3)β-caryophyllene and(-)-germacrene D were common components of 14 and 15 plants, respectively. To some extent, the main components of the Lamiaceae aromatic plants of the same genus are similar. The type of volatile terpenes contained in the closely related aromatic plants in Lamiaceae family are also similar. This study not only provides the reference for the utilization and development of aromatic plants of Lamiaceae family, but also provides the basis for the metabolism study of plant terpenes.

Key words: aromatic plants of Lamiaceae, volatile oil components, DNA barcoding, gas chromatography-mass spectrometry(GC-MS), terpenoid metabolism