Continual misidentification of 5-oxolinalool as 2-methylnon-2-en-4-one in essential oils

IF 2.2 3区 农林科学 Q3 CHEMISTRY, APPLIED Journal of Essential Oil Research Pub Date : 2023-08-20 DOI:10.1080/10412905.2023.2247401
Vidak N. Raičević, N. Radulović
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Abstract

ABSTRACT When employing GC and GC-MS, constituents of essential oils are most frequently identified by comparing retention indices and mass spectra with those reported in the literature or analytical libraries. While this allows for a rapid analysis, incorrect data can lead to a constituent being repeatedly misidentified. This was demonstrated in this work for 5-oxolinalool (6-hydroxy-2,6-dimethylocta-2,7-dien-4-one), an oxygenated monoterpene that was often erroneously identified as 2-methylnon-2-en-4-one. After encountering an unknown constituent of the essential oil of Sambucus nigra L. (Viburnaceae) flowers, we sought to acquire relevant analytical data on both compounds. Even though their mass spectra were rather similar (with 2-methylnon-2-en-4-one missing the peak at m/z 71), their retention indices were found to be significantly different. It follows that a revision of all prior identifications of 2-methylnon-2-en-4-one as an essential-oil constituent is needed.
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在精油中,5- oxolinalol连续被误认为是2-甲基non-2-en-4-one
当使用GC和GC- ms时,最常用的方法是通过与文献或分析库中报道的保留指数和质谱进行比较来鉴定精油的成分。虽然这允许快速分析,但不正确的数据可能导致组件反复被错误识别。在这项研究中,5-oxolinalool(6-羟基-2,6-二甲基locta-2,7-二烯-4-one)证明了这一点,这是一种氧合单萜,经常被错误地识别为2-甲基non-2-en-4-one。在遇到黑参花精油的未知成分后,我们寻求获得这两种化合物的相关分析数据。尽管它们的质谱相当相似(2-甲基-2-en-4- 1在m/z 71处没有峰),但它们的保留指数却有显著差异。因此,需要对所有先前鉴定的2-甲基non-2-en-4-one作为精油成分进行修订。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Essential Oil Research
Journal of Essential Oil Research 工程技术-食品科技
CiteScore
6.00
自引率
3.30%
发文量
52
审稿时长
18-36 weeks
期刊介绍: Journal of Essential Oil Research ( JEOR) is the major forum for the publication of essential oil research and analysis. Each issue includes studies performed on the chemical composition of some of the 20,000 aromatic plants known in the plant kingdom. JEOR is devoted entirely to all phases of research from every corner of the world by the experts in their field. JEOR''s main areas of focus include: -Analytical chemistry- Biological activity- Biotechnology- Chemical composition- Chemical synthesis- Chemosystematics- Microbiological activity- Plant biochemistry/biosynthesis- Toxicology. Published six times per year, JEOR provides articles on the aromatic principles of a plant or its isolates and are directed toward furthering our readers'' knowledge of the aromatic plant and animal kingdoms.
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