# Glucosinolate diversity in seven field-collected Brassicaceae species

**Authors:** Lisa Pormetter, Marina Pfalz, Mervic D. Kagho, Philipp Klahn, Heiko Vogel, Juergen Kroymann, Ute Wittstock

PMC · DOI: 10.1371/journal.pone.0336172 · 2025-11-13

## TL;DR

This study explores the diversity of glucosinolates in seven wild Brassicaceae species, revealing significant variation that may impact herbivores.

## Contribution

The study identifies novel glucosinolate profiles in Cardamine species and highlights implications for herbivore adaptation.

## Key findings

- Total glucosinolate content varies significantly among individuals, populations, and species.
- Cardamine species show distinct glucosinolate profiles not previously described.
- Herbivores feeding on cruciferous plants encounter diverse or limited glucosinolate structures depending on the host plant.

## Abstract

The glucosinolate-myrosinase system is a well-known chemical defense in the Brassicales order, which has been extensively studied in Arabidopsis thaliana. Here, we assessed natural variation of leaf glucosinolate content and profiles in seven species of the Brassicaceae family, using over 300 cauline leaf samples collected from wild populations in Germany and France. Total glucosinolate content varied substantially among individuals, populations and species. Analysis of glucosinolate profiles identified two types of profiles each for Cardamine amara and C. pratensis, and three profile types for C. impatiens. One profile type for each Cardamine species showed glucosinolate compositions distinct from previously described profile types. In contrast, the glucosinolate profiles of the other four species – Lepidium draba, Lunaria rediviva, Hesperis matronalis, and Descurainia sophia – were less variable. The obtained dataset paves the way for more detailed analyses of the genetic basis of glucosinolate biosynthesis in these species. Our data indicate that, among plutellid species whose larvae feed exclusively on cruciferous host plants, the oligophagous Eidophasia messingiella and Rhigognostis senilella are exposed to a diverse array of glucosinolate structures. In contrast, Plutella porrectella primarily encounters only a limited set of unusual glucosinolates when feeding on its preferred host plant, H. matronalis. Future research is required to evaluate whether this has led to specialized adaptations in this Lepidopteran herbivore. Furthermore, our study indicates that the unpredictable variation in total glucosinolate content as detected in our field-collected samples might pose a substantial challenge even to adapted herbivores.

## Linked entities

- **Species:** Cardamine amara (taxon 50461), Cardamine pratensis (taxon 50465), Cardamine impatiens (taxon 82286), Lepidium draba (taxon 153317), Lunaria rediviva (taxon 283746), Hesperis matronalis (taxon 264418), Descurainia sophia (taxon 89411), Eidophasia messingiella (taxon 753318), Rhigognostis senilella (taxon 1101151), Plutella porrectella (taxon 421442)

## Full-text entities

- **Chemicals:** Glucosinolate (MESH:D005961)
- **Species:** Lunaria rediviva (species) [taxon 283746], Plutella porrectella (Dame's rocket moth, species) [taxon 421442], Arabidopsis thaliana (mouse-ear cress, species) [taxon 3702], Lepidium draba (heart-podded hoary cress, species) [taxon 153317], Collimonas pratensis (species) [taxon 279113], Cardamine amara (species) [taxon 50461], Hesperis matronalis (species) [taxon 264418], Cardamine impatiens (narrowleaf bittercress, species) [taxon 82286], Rhigognostis senilella (species) [taxon 1101151], Eidophasia messingiella (species) [taxon 753318], Descurainia sophia (species) [taxon 89411]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12614607/full.md

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Source: https://tomesphere.com/paper/PMC12614607