State Key Laboratory of Biocontrol and Guangdong Key Laboratory of Plant Resources, School of Life Sciences, Sun Yat-sen University, Guangzhou, 510275, China.
New Phytol. 2017 Sep;215(4):1582-1593. doi: 10.1111/nph.14673. Epub 2017 Jul 10.
The diverse pigmentation patterns of flower corollas probably result from pollinator-mediated selection. Previous studies demonstrated that R2R3-MYB factors may have been recruited in the regulation of corolla pigmentation. However, how R2R3-MYBs became so diverse in their regulation of different pigmentation patterns remains unclear. Here, we studied a Lamiales species, Torenia fournieri, which has elaborate zygomorphic flowers with dorsal-ventral asymmetries in corolla pigmentation. We found recent gene duplication events in CYCLOIDEA-like (CYC-like) and RADIALIS-like (RAD-like) genes, and functionally analyzed three dorsal-specific expression factors: TfCYC1, TfCYC2, and TfRAD1. We found that the CYC-RAD module coordinates petal shape and corolla pigmentation, as ectopic expression of TfCYC2 or TfRAD1 disrupted the asymmetric corolla pigmentation pattern and produced strongly dorsalized flowers. Dorsal petal identity was lost when TfCYC2 was down-regulated or when TfRAD1 was knocked out. In T. fournieri, the diversified CYC and RAD genes have evolved regulatory loops, and TfCYC2 binds directly to the regulatory regions of an R2R3-MYB factor gene, TfMYB1, which might lead to its asymmetric expression and ultimately establish the asymmetric pigmentation pattern. These findings support the existence of a regulatory module that integrates dorsal-ventral patterning and asymmetric corolla pigmentation in T. fournieri.
花被的不同色素模式可能是由传粉媒介介导的选择造成的。先前的研究表明,R2R3-MYB 因子可能在调控花被色素方面被招募。然而,R2R3-MYB 因子在调控不同色素模式方面的多样性是如何产生的,目前仍不清楚。在这里,我们研究了 Lamiales 科的一种植物,Torenia fournieri,它具有精致的左右对称的花朵,花被在背部-腹部存在色素不对称性。我们发现了 CYCLOIDEA-like (CYC-like) 和 RADIALIS-like (RAD-like) 基因的近期基因重复事件,并对三个背部特异性表达因子:TfCYC1、TfCYC2 和 TfRAD1 进行了功能分析。我们发现 CYC-RAD 模块协调花瓣形状和花被色素,因为异位表达 TfCYC2 或 TfRAD1 会破坏不对称的花被色素模式,并产生强烈的背部化花朵。当 TfCYC2 下调或 TfRAD1 敲除时,背部花瓣的特征丧失。在 T. fournieri 中,多样化的 CYC 和 RAD 基因已经进化出了调控回路,并且 TfCYC2 直接结合到 R2R3-MYB 因子基因 TfMYB1 的调控区域,这可能导致其不对称表达,并最终建立起不对称的色素模式。这些发现支持了一个调控模块的存在,该模块整合了背部-腹部模式和 T. fournieri 花被的不对称色素形成。
