BrPIF4/BrBBX24-BrHB52-mediated hypocotyl modularity unlocks mechanized harvesting potential in Brassica rapa
Xiaohong Yuan, Yunyun Cao, Xiaoyun Xin, Youping Li, Peirong Li, Weihong Wang, Bin Zhang, Xiuyun Zhao, Yangjun Yu, Deshuang Zhang, Fenglan Zhang, Huarui Wu, Shuancang Yu, Tongbing Su

TL;DR
This study identifies a genetic module that controls hypocotyl length in Chinese cabbage, which could help improve mechanical harvesting efficiency.
Contribution
The discovery of a BrPIF4/BrBBX24-BrHB52 regulatory module that controls hypocotyl elongation for mechanized harvesting.
Findings
BrHB52 is a key regulator of hypocotyl elongation in Chinese cabbage.
A 251-bp insertion in the BrHB52 promoter of a long-hypocotyl variety introduces light-responsive GT-1 motifs.
PIF4 and BBX24 transcription factors regulate BrHB52 expression through different promoter elements.
Abstract
Chinese cabbage production faces critical mechanization challenges due to traditional plant architectures that limit mechanical harvesting efficiency. Traditional breeding prioritized short-hypocotyl varieties to prevent damping-off, but long hypocotyls are now critical for mechanical harvesting. We identified BrHB52, an HD-Zip transcription factor, as a key regulator of hypocotyl elongation through quantitative trait locus (QTL) mapping, RNA-seq, and haplotype analysis. BrHB52 expression was significantly higher in the long-hypocotyl variety R031L than in the short-hypocotyl variety R032S. Overexpression of BrHB52 in both Chinese cabbage and Arabidopsis led to elongated hypocotyls. The silencing of BrHB52 in R031L resulted in a reduction of hypocotyl length. Sequence alignment revealed a 251-bp insertion in the BrHB52 promoter of the long-hypocotyl variety R031L, which introduced the…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant Gene Expression Analysis · Plant nutrient uptake and metabolism
