A novel CsbZIP26–CsSEP4–CsSPL18 regulatory module governs gynostemium morphology and floral architecture in Cymbidium sinense
Zengyu Lin, Chuqiao Lu, Yibing Wang, Yonglu Wei, Jie Gao, Jie Li, Qi Xie, Jianpeng Jin, Yanmei Sun, Wei Zhu, Genfa Zhu, Fengxi Yang

TL;DR
The study identifies a gene regulatory module that controls flower structure in Cymbidium sinense, explaining variations in gynostemium development and floral architecture.
Contribution
A novel regulatory module involving CsbZIP26, CsSEP4, and CsSPL18 is discovered to govern gynostemium morphology in Cymbidium sinense.
Findings
SNPs in the CsSEP4 promoter are linked to gynostemium variant cultivars in Cymbidium sinense.
CsbZIP26 activates CsSEP4 expression, which in turn regulates CsSPL18 to control gynostemium development.
Mutations in the CsSEP4 promoter prevent CsbZIP26 binding, leading to abnormal floral morphology.
Abstract
Floral organ formation plays an essential role in Cymbidium sinense reproductive development and serves as a key determinant of their ornamental traits. During the domestication and natural evolution of C. sinense, numerous floral organ variant cultivars have emerged, among which many floral morphological variations arise from abnormal development of the gynostemium, a reproductive organ. These gynostemium variant (GV) cultivars not only exhibit enhanced commercial appeal but also provide a unique model for investigating floral morphogenesis and evolutionary diversification. In this study, we identified single nucleotide polymorphisms (SNPs) in the promoter region of CsSEP4 closely linked to GV through genome-wide association studies. Functional analyses of CsSEP4 revealed that it played a crucial role in the development of gynostemium. Yeast one-hybrid (Y1H) and dual-luciferase…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant biochemistry and biosynthesis · Plant Gene Expression Analysis
