Jing Nie, Hongyu Huang, Sheng Wu, Tao Lin, Lidong Zhang, Lijun Lv, Yuzi Shi, Yicong Guo, Qian Zhang, Yuhe Li, Weiliang Kong, Hujian Li, Zhen Yang, Wenbo Li, Lingjun Xu, Nan Ma, Zhonghua Zhang, Chuanqing Sun, Xiaolei Sui
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引用次数: 0
摘要
孤雌性是一种重要的性状,通过无籽果实的发育来提高水果作物的产量和品质。在此,我们揭示了黄瓜(Cucumis sativus L.)孤雌核发育调控和驯化的分子框架。我们之前发现了一个天然的非孤雌果突变体,并证明了ap2样转录因子non-parthenocarpic FRUIT 1 (NPF1)通过激活YUC4的表达和促进胚珠中生长素的生物合成,是孤雌果的中心调节因子。在氨基酸残基7上进行ph到ser的取代会产生一种稳定的NPF1,它位于细胞核内。YUC4启动子中NPF1结合位点的A-to-G多态性(SNP-383)显著增强了NPF1对YUC4的激活,导致孤雌繁殖率增加。此外,NPF1通过抑制Bt表达,减少葫芦素C的生物合成,从而影响苦味。本研究结果表明,黄瓜驯化过程中孤雌性和果实苦味的进化模式为两步进化模式。
Molecular regulation and domestication of parthenocarpy in cucumber
Parthenocarpy is a pivotal trait that enhances the yield and quality of fruit crops by enabling the development of seedless fruits. Here we unveil a molecular framework for the regulation and domestication of parthenocarpy in cucumber (Cucumis sativus L.). We previously discovered a natural non-parthenocarpic mutant and demonstrated that the AP2-like transcription factor NON-PARTHENOCARPIC FRUIT 1 (NPF1) is a central regulator of parthenocarpy through activating YUC4 expression and promoting auxin biosynthesis in ovules. A Phe-to-Ser substitution at amino acid residue 7 results in a stable form of NPF1 that is localized in the nucleus. An A-to-G polymorphism (SNP-383) within an NPF1-binding site in the YUC4 promoter significantly enhances the activation of NPF1 towards YUC4, leading to an increased rate of parthenocarpy. Additionally, NPF1 influences bitterness by reducing cucurbitacin C biosynthesis through the suppression of Bt expression. Our results suggest a two-step evolutionary model for parthenocarpy and fruit bitterness during cucumber domestication.
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