生物
突变体
基因
表型
细胞生物学
遗传学
磷酸酶
突变
单核苷酸多态性
遗传筛选
细胞分裂
SNP公司
蛋白质亚单位
基因表达调控
发育遗传学
RNA干扰
基因调控网络
基因表达
数量性状位点
信号转导
植物
拟南芥
蛋白质稳定性
植物发育
特质
调节基因
基因敲除
作物
作者
M. F. Li,Xiaoli Li,Yuting He,Chuang Li,Chaoheng Gu,Chengzhen Sun,Xiao Ma,Yan Geng,Siyu Hu,Lijie Han,Liu Liu,Ye Liu,Zhihan Liu,Daixi She,Z. Zhou,Xiaofei Song,Yupeng Pan,Liying Yan,Xiaolan Zhang,Jianyu Zhao
摘要
Fruit shape is an important external quality trait that directly determines the market value. Modification of fruit shape has emerged as a key focus in crop improvement, but the regulatory network of fruit shape specifications remains largely unknown. Here, we identified a short fruit mutant (sf5) that was caused by a C-to-T single nucleotide polymorphism (SNP) in TONNEAU2 (CsTON2), a microtubule-associated gene encoding the B subunit of protein phosphatase 2A (PP2A). Overexpression of CsTON2 in the sf5 background partially rescued the mutant phenotype, while knockout of CsTON2 led to severe developmental defects and dwarfism. We further demonstrated that CsTON2 physically interacts with CsTRM5 and CsSUN, two key regulators of fruit shape in cucumber. The SNP change of CsTON2 in sf5 mutant impairs the interaction with CsTRM5 and CsSUN, and decreases the protein stability of CsSUN. Genetic analyses revealed that CsTON2, CsTRM5 and CsSUN coordinately regulate fruit shape development by modulating cell division direction in cucumber. Therefore, our findings shed insights into the role of microtubule-associated protein complex in fruit shape determination and provide new gene targets for breeding cucumber varieties with favourable fruit shapes.
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