# A Mass Spectrometry Approach Reveals Fatty Acid Isomerism in Tomato Cold Tolerance

**Authors:** Leelyn Chong, Hengxue Shi, Qirui Yu, Xiaoning Shi, Zhaoxing Jia, Ziyun Dong, Yu Xia, Yingfang Zhu

PMC · DOI: 10.1002/advs.202500175 · Advanced Science · 2025-08-04

## TL;DR

A new mass spectrometry method identifies fatty acid isomers that help tomatoes tolerate cold, with some isomers partially rescuing cold sensitivity in mutant plants.

## Contribution

An enhanced mass spectrometry approach reveals the role of fatty acid isomers in tomato cold tolerance and their potential for rescuing cold sensitivity.

## Key findings

- Fatty acid isomers are critical for cold tolerance in tomato plants.
- Application of specific fatty acid isomers partially rescues cold sensitivity in mutant plants.
- SlHY5 modulates SlFAD2 gene expression under cold stress, regulating fatty acid desaturation.

## Abstract

Plants can adapt to environmental fluctuations through modulating their fatty acids (FAs) dynamically. In this study, an enhanced mass spectrometry approach is utilized to uncover an unexplored landscape of FAs and FA isomers that are critical for cold tolerance in tomato. This technology integrates N‐(4‐aminomethylphenyl) pyridium derivatization of FAs, charge‐tagging Paternò‐Büchi (PB) photochemical reaction to identify carbon–carbon double bond (C═C) positions and reversed‐phase liquid chromatography coupled with tandem mass spectrometry to achieve efficient detection of FAs and their C═C location isomers. Several saturated FAs, unsaturated FAs and their C═C location isomers are revealed to contribute to the cold tolerance of elongated hypocotyl 5 (slhy5) and fatty acid desaturase (slfad) mutant plants. RNA‐sequencing analysis and dual‐luciferase reporter assays further demonstrate that SlHY5 can modulate the expression of SlFAD2 genes under cold stress, regulating FA desaturation. The application of FA isomers to the leaves of slfad mutants partially rescues their cold sensitivity, presenting the practical implications of the study. The study thereby highlights the importance of considering isomeric variations in FAs when investigating plant physiology and stress responses. Furthermore, this methodology sets a valuable precedent for future investigations aimed at unraveling the intricate metabolic networks that govern plant stress adaptation.

An enhanced mass spectrometry approach reveals fatty acids (FAs) and FA isomers that are critical for tomato cold tolerance. Applying specific FA isomers can partially rescue cold sensitivity in tomato mutant plants, highlighting the importance of FA isomers in plant cold stress adaptation.

## Full-text entities

- **Chemicals:** unsaturated FAs (MESH:D005231), carbon (MESH:D002244), N-(4-aminomethylphenyl) pyridium (-), FA (MESH:D005227)
- **Species:** Solanum lycopersicum (tomato, species) [taxon 4081]

## Full text

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## Figures

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## References

69 references — full list in the complete paper: https://tomesphere.com/paper/PMC12561362/full.md

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Source: https://tomesphere.com/paper/PMC12561362