A natural variation within duplicated AsWRKY49-D2 drives the subgenomic functional divergence of homeologs in salt response of allohexaploid oats

doi:10.1111/jipb.70171

A natural variation within duplicated AsWRKY49-D2 drives the subgenomic functional divergence of homeologs in salt response of allohexaploid oats

Cailian Du^1†, Yange Yun^1†, Wenjia Li^1†, Xiaolu Wu¹, Xingyu Liu¹, Minghao Li¹, Yingying Li¹, Shuhui Wang^1,2, Wei Li^1,2, Qiang He^1,2, Zhizhong Gong^1,3, Huilong Du^1,2* and Qingbin Sun^1,2*

1. College of Life Sciences, Institute of Life Science and Green Development, Hebei University, Baoding 071000, China
2. Hebei Basic Science Center for Biotic Interaction, Hebei University, Baoding 071000, China
3. State Key Laboratory of Plant Environmental Resilience, College of Biological Sciences, China Agricultural University, Beijing 100094, China
^†These authors contributed equally.
^*Correspondences: Qingbin Sun (qbsun@hbu.edu.cn, Dr. Sun is fully responsible for the distribution of all materials associated with this article); Huilong Du (huilongdu@hbu.edu.cn)

Received:2025-12-18 Accepted:2026-01-14 Online:2026-02-09
Supported by:
This work was supported by the Natural Science Foundation of Hebei Province (C2025201039).

Abstract

Abstract: Salt stress is a major abiotic constraint limiting global crop production. Oat (Avena sativa L.), an allohexaploid cereal renowned for robust stress tolerance, remains poorly understood in terms of the molecular mechanisms underlying its response to salt stress. Here, we perform transcriptome profiling across multiple developmental stages and tissues of oat under salt stress, and construct the co-expression regulatory network to identify salt tolerance-associated gene modules. Notably, 10 salt-responsive transcription factor (SRTF) families with dynamic expression patterns are identified as core regulators, showing extensive subgenomic functional divergence, characterized by subgenome-dominant expression, as well as subgenome-specific duplication or loss events. Further integration with a genome-wide association study (GWAS) of the germination rate under salt stress in 225 oat accessions identified a 3-bp InDel variation within the duplicated gene AsWRKY49-D2, which specifically modulates its expression by facilitating binding of the TF AsZAT18, with AsWRKY49-D2 further mediating oat salt tolerance through targeted regulation of AsSOS2 and AsSOS3. Intriguingly, the salt-tolerant allele of AsWRKY49 is scarcely distributed in Chinese oat accessions, highlighting its considerable potential for breeding application. These results shed light on the regulatory mechanisms underlying oat salt tolerance, providing valuable information for exploring salt tolerance genes and breeding new salt-tolerant oat varieties.

Key words: allohexaploid oat, AsWRKY49, natural variation, salt stress, subgenomic functional divergence

Cailian Du, Yange Yun, Wenjia Li, Xiaolu Wu, Xingyu Liu, Minghao Li, Yingying Li, Shuhui Wang, Wei Li, Qiang He, Zhizhong Gong, Huilong Du, Qingbin Sun. A natural variation within duplicated AsWRKY49-D2 drives the subgenomic functional divergence of homeologs in salt response of allohexaploid oats[J]. J Integr Plant Biol., DOI: 10.1111/jipb.70171.

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A natural variation within duplicated AsWRKY49-D2 drives the subgenomic functional divergence of homeologs in salt response of allohexaploid oats

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