Dexin Kong, Yifeng Jing, Yaping Duan, Mengqi He, Hui Ding, Heying Li, Zhuojun Zhong, Zhigang Zheng, Xiuying Fan, Xuan Pan, Yanqun Li, Mei Bai, Xinjian Li, Minhua Luo, Weicong Xue, Xiaoming Zhang, Xin Xu, Yateng Yuan, Ting Zou, Lihong Chen, Wenyan Ding, Yongping Zhao, Baobao Wang, Hong Wu, Qing Liu, Haiyang Wang
New Phytologist,15 July 2024,Doi.org/10.1111/nph.19961
Abstract
Maize silk is a specialized type of stigma, covered with numerous papillae for pollen grain capture. However, the developmental process of stigmatic papillae and the underlying regulatory mechanisms have remained largely unknown.
Here, we combined the cytological, genetic and molecular studies to demonstrate that three homologous genes ZmSPL10, ZmSPL14 and ZmSPL26 play a central role in promoting stigmatic papilla formation in maize.
We show that their triple knockout mutants are nearly complete lack of stigmatic papilla, resulting in a severe reduction in kernel setting. Cellular examination reveals that stigmatic papilla is developed from a precursor cell, which is the smaller daughter cell resulting from asymmetric cell division of a silk epidermal cell. In situ hybridization shows that ZmSPL10, ZmSPL14 and their target genes SPI1, ZmPIN1b, ZmARF28 and ZmWOX3A are preferentially expressed in the precursor cells of stigmatic papillae. Moreover, ZmSPL10, ZmSPL14 and ZmSPL26 directly bind to the promoters of SPI1, ZmPIN1b, ZmARF28 and ZmWOX3A and promote their expression. Further, Zmwox3a knockout mutants display severe defects in stigmatic papilla formation and reduced seed setting.
Collectively, our results demonstrate that ZmSPL10, ZmSPL14 and ZmSPL26 act together to promote stigmatic papilla development through regulating auxin signaling and ZmWOX3A expression.
