WTV2.0: A high-coverage plant volatilomics method with a comprehensive selective ion monitoring acquisition mode

Volatilomics is essential for understanding the biological functions and fragrance contributions of plant volatiles. However, the annotation coverage achieved using current untargeted and widely targeted volatomics (WTV) methods has been limited by low sensitivity and/or low acquisition coverage. He...

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Bibliographic Details
Published in:Molecular plant 2024-06, Vol.17 (6), p.972-985
Main Authors: Yuan, Honglun, Jiangfang, Yiding, Liu, Zhenhuan, Su, Rongxiu, Li, Qiao, Fang, Chuanying, Huang, Sishu, Liu, Xianqing, Fernie, Alisdair R., Luo, Jie
Format: Article
Language:English
Subjects:
GC–MS
plant volatiles
Plants - chemistry
Plants - metabolism
selective ion monitoring
Volatile Organic Compounds - analysis
Volatile Organic Compounds - chemistry
Volatile Organic Compounds - metabolism
volatilomics
widely targeted methods
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Summary:Volatilomics is essential for understanding the biological functions and fragrance contributions of plant volatiles. However, the annotation coverage achieved using current untargeted and widely targeted volatomics (WTV) methods has been limited by low sensitivity and/or low acquisition coverage. Here, we introduce WTV 2.0, which enabled the construction of a high-coverage library containing 2111 plant volatiles, and report the development of a comprehensive selective ion monitoring (cSIM) acquisition method, including the selection of characteristic qualitative ions with the minimal ion number for each compound and an optimized segmentation method, that can acquire the smallest but sufficient number of ions for most plant volatiles, as well as the automatic qualitative and semi-quantitative analysis of cSIM data. Importantly, the library and acquisition method we developed can be self-expanded by incorporating compounds not present in the library, utilizing the obtained cSIM data. We showed that WTV 2.0 increases the median signal-to-noise ratio by 7.6-fold compared with the untargeted method, doubled the annotation coverage compared with the untargeted and WTV 1.0 methods in tomato fruit, and led to the discovery of menthofuran as a novel flavor compound in passion fruit. WTV 2.0 is a Python library with a user-friendly interface and is applicable to profiling of volatiles and primary metabolites in any species. WTV 2.0 is a high-coverage plant volatilomics method, incorporating automatic library construction, acquisition method generation, and data analysis. Compared with the untargeted and WTV 1.0 methods, WTV 2.0 exhibits higher sensitivity and coverage and has enabled the discovery of menthofuran as a novel flavor compound in passion fruit.
ISSN:1674-2052
1752-9867
1752-9867
DOI:10.1016/j.molp.2024.04.012