# Comparative analysis to investigate a possible mechanism for cell enlargement in succulent leaves of Crassothonna capensis (Asteraceae)

**Authors:** Hokuto Nakayama, Kento Sawazaki, Yuki Doll, Hiroyuki Koga, Huibo Yu, Yasutake Moriyama, Mikita Tamura, Hirokazu Tsukaya

PMC · DOI: 10.1007/s10265-025-01674-0 · Journal of Plant Research · 2025-11-11

## TL;DR

This study explores how succulent leaves in Crassothonna capensis grow larger, finding that endoreduplication may play a role in some cells but not others.

## Contribution

The study identifies Crassothonna capensis as a potential model for understanding leaf succulence and highlights organ-specific endoreduplication.

## Key findings

- Endoreduplication was detected in enlarged leaf cells of Crassothonna capensis but not in non-succulent parts.
- Other genera like Caputia and Senecio showed no link between leaf succulence and endoreduplication.
- Endoreduplication may be a supplementary mechanism for cell enlargement in Cr. capensis.

## Abstract

Succulent plants, characterized by the presence of water-storage tissues, often exhibit distinctive leaf morphology. However, their developmental mechanisms remain largely unknown, partly due to the lack of an appropriate model plant. In this study, we evaluated the potential of Asteraceae species as a model system for investigating the mechanisms underlying leaf succulence. First, we analyzed the leaf anatomical and cellular characteristics of succulent plants in the genera Caputia, Crassothonna, Curio, Othonna, and Senecio. To explore a potential mechanism involved in succulent leaf development, we focused on endoreduplication—genome replication without mitosis—and measured the ploidy levels of leaf cells in each species using flow cytometry (FCM) to assess the relationship between leaf succulence and endoreduplication. The FCM data indicated that succulent leaves of Caputia, Curio, Senecio, and Othonna were not associated with endoreduplication. In contrast, endoreduplication was detected in enlarged leaf cells of Crassothonna capensis, while no endoreduplication was observed in the peduncles, which did not appear succulent, or in ligules, which are the lateral organs homologous to leaves. These results suggest that unknown mechanisms other than endoreduplication contribute to leaf succulence in certain genera, and that endoreduplication is regulated in an organ-specific manner in Cr. capensis. Additionally, even if endoreduplication is involved in leaf succulence, it may serve as a supplementary mechanism for cell enlargement. Collectively, these findings highlight Crassothonna and its related genera in Asteraceae as a promising group for studying the mechanisms of leaf succulence.

The online version contains supplementary material available at 10.1007/s10265-025-01674-0.

## Linked entities

- **Species:** Caputia (taxon 1500518), Curio (taxon 406287), Othonna (taxon 109566), Senecio (taxon 18794)

## Full-text entities

- **Diseases:** succulent syndrome (MESH:D013577), Senecio vulgaris (MESH:D016112)
- **Chemicals:** alcohol (MESH:D000438), water (MESH:D014867), Triton-X100 (MESH:D017830), propidium iodide (MESH:D011419), ethanol (MESH:D000431), acetic acid (MESH:D019342), Accuri C6 (-), MgCl2 (MESH:D015636), Cr (MESH:D002857), formalin (MESH:D005557), HCl (MESH:D006851), toluidine blue (MESH:D014048), salt (MESH:D012492)
- **Species:** Curio herreanus (species) [taxon 405116], Othonna euphorbioides (species) [taxon 551073], Curio (genus) [taxon 406287], C. repens [taxon 57156], Senecio vulgaris (old-man-in-the-Spring, species) [taxon 76276], Curio rowleyanus (species) [taxon 189246], Caputia scaposa (species) [taxon 189248], Curio repens (species) [taxon 189249], Senecio crassissimus (species) [taxon 405109], Arabidopsis thaliana (mouse-ear cress, species) [taxon 3702]

## Full text

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## Figures

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Source: https://tomesphere.com/paper/PMC12868066