生长素
胡椒粉
生物
基因沉默
基因
突变体
茄科
调节器
植物
细胞生物学
园艺
一年生辣椒
基因表达调控
成熟
基因表达
细胞
表型
分布(数学)
遗传学
作者
Zhiquan Wang,Qingyun Shan,Qing Xu,Qi Xu,Meiqian Wu,Qing Li,Ke Fang,Huan He,Duan Yu,Haijie Zhang,Kun Long,Hongjie Zhao,Yi Liu,Haitao Yu,Cheng Xiong,Xuexiao Zou,Feng Liu,Zhongyi Wang,Bo-Wen Hu
出处
期刊:Plant Physiology
[Oxford University Press]
日期:2025-09-01
卷期号:199 (1)
被引量:1
标识
DOI:10.1093/plphys/kiaf404
摘要
Fruit shape is a key determinant of pepper (Capsicum annuum L.) fruit commercial value, and the shoulder is a crucial feature of the fruit's proximal end. Despite the fruit shoulder being an important parameter in morphological variation, the genes and regulatory mechanisms underlying fruit shoulder morphology remain elusive. Here, we identified a fruit shoulder (fs) mutant that primarily exhibits a shoulderless fruit phenotype, with an ∼40% reduction in fruit weight. Our data demonstrated that OVATE family protein 20 (CaOFP20) controls this phenotype. Silencing CaOFP20 in various fruit types consistently led to decreased fruit shoulder width, while fruit length was unaffected. CaOFP20 was mainly expressed in the pericarp, seeds, and placenta, where it regulates organ size by modulating cell division. Loss of CaOFP20 disrupted the expression of auxin pathway genes and the spatial distribution of auxin in fruits. Additionally, we demonstrated that CaOFP20 physically interacts with HECATE1 (CaHEC1), and silencing CaHEC1 in fs resulted in a wider fruit shoulder. Moreover, CaOFP20 and CaHEC1 play distinct yet complementary roles in regulating the expression of auxin pathway genes involved in fruit shoulder development, such as PIN-FORMED1 (CaPIN1), CaPIN3, and Indole-3-Acetic Acid Inducible (CaIAA9), thus finely controlling fruit shoulder development. Taken together, our findings establish CaOFP20 as a central regulator of fruit shoulder development and suggest its potential utility in breeding programs to enhance pepper fruit quality.
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