# The potential functions of HvDJ genes in regulating salt tolerance in barley

**Authors:** Yunfeng Xu, Haoran Sun, Ling Shen, Boyan Wan, Lijun Liu, Guoping Zhang, Qiufang Shen

PMC · DOI: 10.3389/fpls.2025.1574097 · 2025-07-10

## TL;DR

This study explores HvDJ genes in barley and their role in salt tolerance, identifying key genes and regulatory networks involved in stress response.

## Contribution

The study identifies HvDJ genes in barley and their potential roles in salt stress tolerance through gene expression and interaction analysis.

## Key findings

- Barley has 109 putative JDP genes, including nine HvDJAs, eight HvDJBs, and 92 HvDJCs.
- 37 HvDJ genes are salt-induced, with HvDJB06, HvDJC58, and HvDJC59 being most differentially expressed.
- HvDJA09 and HvDJA05 are core regulators in the HvDJ stress response network.

## Abstract

The important roles of JDP members in regulating abiotic and biotic stress tolerance have been demonstrated in many plants. However, fewer studies have explored the JDP gene family and its role in the salt stress response in barley, a crop known for its superior salt tolerance compared to other major cereals. Here, we identified a total of 109 putative JDP genes (nine HvDJAs, eight HvDJBs, 92 HvDJCs) in barley. Promoter analysis of HvDJs suggested that HvDJs might be involved in the processes of hormone regulation and stress response. Tandem and segmental duplications appear to be the driving forces behind JDP gene family expansion. RNA-seq analysis showed that the expression of 37 HvDJs was salt-induced, and HvDJB06, HvDJC58, and HvDJC59 were the most differentially expressed under salt stress. Protein–protein interaction analysis indicated that HvDJA09 and HvDJA05 play core roles in the complex regulatory network. Taken together, the current study provides valuable information for a deeper understanding of the function of HvDJs in regulating salt stress tolerance in barley.

## Full-text entities

- **Chemicals:** salt (MESH:D012492)

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12287002/full.md

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Source: https://tomesphere.com/paper/PMC12287002