BnaA3.AHK2 modulates seed weight and size development through a non-canonical cytokinin signaling pathway in Brassica napus

doi:10.1111/jipb.70069

• Research Article •

BnaA3.AHK2 modulates seed weight and size development through a non-canonical cytokinin signaling pathway in Brassica napus

Yushun Jiao^1†, Baoling Liang^1†, Pengfei Wang¹, Shizhen Guo¹, Hao Wang¹, Lihong Dai¹, Xiang Li¹, Shengzhe Lin¹, Dawei Zhao¹, Qiang Xin², Cheng Dai¹, Guangsheng Yang^1,3 and Dengfeng Hong^1,3*

1. National Key Laboratory of Crop Genetic Improvement, College of Plant Science and Technology, Huazhong Agricultural University, Wuhan 430070, China
2. Shanghai Key Laboratory of Plant Molecular Sciences, College of Life Sciences, Shanghai Normal University, Shanghai 200234, China
3. Hubei Hongshan Laboratory, Wuhan 430070, China

^†These authors contributed equally to this work.
^*Correspondence: Dengfeng Hong (dfhong@mail.hzau.edu.cn)

Received:2025-07-21 Accepted:2025-09-28 Online:2025-11-16
Supported by:
This work was supported by the National Natural Science Foundation of China (U23A20190 and 31971977), the Project 2662022ZKYJ004 supported by the Fundamental Research Funds for the Central Universities and the Fund for CAR‐12.

Abstract

Abstract: Seed weight is a pivotal yield-determining trait in crops, and yet, the genetic and molecular mechanisms underlying its regulation in polyploid species remain underexplored. In a previous study, we identified cqSW.A03-2, a QTL that regulates thousand seed weight (TSW) in rapeseed (Brassica napus). Here, we identify BnaA3.AHK2, encoding a histidine kinase, as the causal gene of cqSW.A03-2. BnaA3.AHK2 enhances TSW through maternal control of seed coat cell expansion without significantly compromising other yield-related traits. Protein sequence divergence between parental haplotypes caused functional differentiation, with only the ZY50 allele showing functional kinase activity and rescuing developmental defects in Arabidopsis cytokinin receptor mutants. Strikingly, BnaA3.AHK2 seems to be a cytokinin-independent operator, contrasting with the canonical cytokinin signaling pathway. Transcriptome and protein interaction analyses reveal a signaling module where BnaA3.AHK2 engages BnaAHP–BnaARR phosphorelay components to regulate downstream targets. Notably, the favorable cqSW.A03-2 haplotype has been historically selected in modern breeding, and its introgression into elite hybrids boosted TSW by 3.6%–9.1%, demonstrating its breeding value. Our findings unveil a non-canonical signaling pathway for seed size regulation, providing a strategic genetic target to break yield trade-offs in polyploid crops.

Key words: BnaA3.AHK2, Brassica napus, cell size, seed size, thousand seed weight

Yushun Jiao, Baoling Liang, Pengfei Wang, Shizhen Guo, Hao Wang, Lihong Dai, Xiang Li, Shengzhe Lin, Dawei Zhao, Qiang Xin, Cheng Dai, Guangsheng Yang, Dengfeng Hong. BnaA3.AHK2 modulates seed weight and size development through a non-canonical cytokinin signaling pathway in Brassica napus[J]. J Integr Plant Biol., DOI: 10.1111/jipb.70069.

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BnaA3.AHK2 modulates seed weight and size development through a non-canonical cytokinin signaling pathway in Brassica napus

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