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龙葵F-box基因SnUFO2的过表达改变花序形态建成OA

Overexpression of the Solanum nigrum F-box Gene SnUFO2 Alters Inflorescence Morphogenesis

中文摘要英文摘要

龙葵(Solanum nigrum)是兼具食用和药用价值的茄科植物.F-box家族基因UNUSUAL FLORAL ORGANS(UFO)在花序结构建成和花器官发育中起重要作用.前期研究发现,过表达C末端缺失23个氨基酸的龙葵SnUFO2基因可导致花器官发育的异常.为深入探究SnUFO2在龙葵花发育过程中的功能,本研究通过SnUFO2的时空表达分析、过表达转基因材料的创制及其形态学观察和B类花器官特征基因的表达分析,对SnUFO2的功能进行研究.时空表达分析显示,SnUFO2在花期顶端分生组织中特异性表达.qPCR结果表明,该基因在早期花蕾的萼片、花瓣、雄蕊和雌蕊中均有表达,且在萼片和花瓣中表达量显著高于叶片、雄蕊和雌蕊(P<0.05).形态学观察发现,过表达SnUFO2的转基因龙葵植株显示矮化、开花时间提前、聚伞花序转为单花、萼片花瓣化以及心皮转变为心皮-雄蕊融合的器官.qPCR分析表明,在转基因花中B类花器官特征基因SnGLOBOSA(SnGLO)、SnPISTILLATA(SnPI28)、SnDEFICIENS(SnDEF)和SnDEFICIENS 64(SnDEF64)的表达水平均显著上调(P<0.05).上述结果表明,SnUFO2可能通过正向调控B类花器官特征基因的表达,从而影响花序结构建成和花器官发育.本研究为利用分子育种手段简化疏花疏果技术提供研究思路和理论依据.

Solanum nigrum(Solanaceae)is an important plant for both food and medicine.The F-box family gene UNUSUAL FLORAL ORGANS(UFO)plays a critical role in the regulation of the inflorescence structure establishment and floral organ development.Previous study showed that overexpression of a truncated SnUFO2 gene(lacking 23 amino acids at the C-terminus)leads to abnormal floral organ development.To further investigate the function of SnUFO2 in flower development,this study conducted spatiotemporal expression analysis of SnUFO2,creating overexpression transgenic lines,morphological observations,and detecting the expression of class B floral organ identity genes.Spatiotemporal expression analysis showed that SnUFO2 was specifically expressed in the apical meristem at the flowering stage.qPCR analysis revealed that SnUFO2 was expressed in the sepals,petals,stamens,and pistils of early flower buds,and its expression in sepals and petals was significantly higher than leaves,stamens and carpels(P<0.05).Morphological observations showed that transgenic S.nigrum plants overexpressing SnUFO2 exhibited dwarfism,early flowering,conversion of cyme inflorescences into single flowers,petaloid sepals,and carpels transformed into stamen-carpel fused organs.Furthermore,qPCR analysis revealed that the expression levels of the B-class floral organ identity genes SnGLOBOSA(SnGLO),SnPISTILLATA(SnPI28),SnDEFICIENS(SnDEF),and SnDEFICIENS 64(SnDEF64)were significantly upregulated in the transgenic flowers(P<0.05),implying that SnUFO2 played a conserved role in inflorescence architecture and floral organ development by positively regulating expression of the B-class floral organ identity genes.This study provides a theoretical reference and research ideas for flower and fruit thinning using biotechnology approaches.

张莹莹;魏文全;朱岁敏;崔敏龙;朴春兰

浙江农林大学 园艺学院/农业农村部亚热带果品蔬菜质量安全控制重点实验室,杭州 311300浙江农林大学 园艺学院/农业农村部亚热带果品蔬菜质量安全控制重点实验室,杭州 311300浙江农林大学 园艺学院/农业农村部亚热带果品蔬菜质量安全控制重点实验室,杭州 311300浙江农林大学 园艺学院/农业农村部亚热带果品蔬菜质量安全控制重点实验室,杭州 311300浙江农林大学 园艺学院/农业农村部亚热带果品蔬菜质量安全控制重点实验室,杭州 311300

农业科技

龙葵F-box基因UNUSUAL FLORAL ORGANS2(UFO2)时空表达分析花发育

Solanum nigrumF-box gene UNUSUAL FLORAL ORGANS2(UFO2)Spatiotemporal expression analysisFlower development

《农业生物技术学报》 2026 (7)

1408-1418,11

浙江省农业科学院合作研发项目(H20220311)

10.3969/j.issn.1674-7968.2026.07.004

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