# Analysis of the Genes from Gibberellin, Jasmonate, and Auxin Signaling Under Drought Stress: A Genome-Wide Approach in Castor Bean (Ricinus communis L.)

**Authors:** Ygor de Souza-Vieira, Esther Felix-Mendes, Gabriela Valente-Almeida, Thais Felix-Cordeiro, Régis L. Corrêa, Douglas Jardim-Messeder, Gilberto Sachetto-Martins

PMC · DOI: 10.3390/plants14081256 · Plants · 2025-04-20

## TL;DR

This study explores how genes involved in plant hormone signaling respond to drought in castor bean, revealing key insights into drought tolerance mechanisms.

## Contribution

The study provides a genome-wide characterization of gibberellin, jasmonate, and auxin signaling genes in castor bean under drought stress.

## Key findings

- Genes encoding receptors, inhibitory proteins, and transcription factors from gibberellin, jasmonate, and auxin pathways were identified in castor bean.
- RNA-seq and RT-qPCR showed that these signaling pathways are modulated at multiple levels under drought stress.
- The gibberellin receptor RcGID1c and RcDELLA3 were downregulated during drought, indicating nuanced regulation of this pathway.

## Abstract

Castor bean (Ricinus communis L.) can tolerate long periods of dehydration, allowing the investigation of gene circuits involved in drought tolerance. Genes from gibberellins, jasmonates, and auxin signaling are important for crosstalk in the developmental and environmental adaptation process to drought conditions. However, the genes related to these signals, as well as their transcription profiles under drought, remain poorly characterized in the castor bean. In the present work, genes from gibberellins, jasmonates, and auxin signaling were identified and molecularly characterized. These analyses allowed us to identify genes encoding receptors, inhibitory proteins, and transcription factors from each signaling pathway in the castor bean genome. Chromosomal distribution, gene structure, evolutionary relationships, and conserved motif analyses were performed. Expression analysis through RNA-seq and RT-qPCR revealed that gibberellins, jasmonates, and auxin signaling were modulated at multiple levels under drought, with notable changes in specific genes. The gibberellin receptor RcGID1c was downregulated in response to drought, and RcDELLA3 was strongly repressed, whereas its homologues were not, reinforcing the suggestion of a nuanced regulation of gibberellin signaling during drought. Considering jasmonate signaling, the downregulation of the transcription factor RcMYC2 aligned with the drought tolerance observed in mutants lacking this gene. Altogether, these analyses have provided insights into hormone signaling in the castor bean, unveiling transcriptional responses that enhance our understanding of high drought tolerance in this plant. This knowledge opens avenues for identifying potential candidate genes suitable for genetic manipulation in biotechnological approaches.

## Full-text entities

- **Diseases:** dehydration (MESH:D003681)
- **Chemicals:** Gibberellin (MESH:D005875), Auxin (MESH:D007210), Jasmonate (MESH:C011006)
- **Species:** Ricinus communis (castor bean, species) [taxon 3988]

## Full text

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## Figures

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## References

111 references — full list in the complete paper: https://tomesphere.com/paper/PMC12030089/full.md

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Source: https://tomesphere.com/paper/PMC12030089