Qingbiao Shi , Ying Xia , Qibin Wang , Kaiwen Lv , Hengjia Yang , Lianzhe Cui , Yue Sun , Xiaofei Wang , Qing Tao , Xiehai Song , Di Xu , Wenchang Xu , Xingyun Wang , Xianglan Wang , Fanying Kong , Haisen Zhang , Bosheng Li , Pinghua Li , Haiyang Wang , Gang Li
Molecular Plant,Volume 17, Issue 8, 5 August 2024, Pages 1255-1271,Doi.org/10.1016/j.molp.2024.06.014
Abstract
Over the past few decades, significant improvements in maize yield have been largely attributed to increased plant density of upright hybrid varieties rather than increased yield per plant. However, dense planting triggers shade avoidance responses (SARs) that optimize light absorption but impair plant vigor and performance, limiting yield improvement through increasing plant density. In this study, we demonstrated that high-density-induced leaf angle narrowing and stem/stalk elongation are largely dependent on phytochrome B (phyB1/B2), the primary photoreceptor responsible for perceiving red (R) and far-red (FR) light in maize. We found that maize phyB physically interacts with the LIGULELESS1 (LG1), a classical key regulator of leaf angle, to coordinately regulate plant architecture and density tolerance. The abundance of LG1 is significantly increased by phyB under high R:FR light (low density) but rapidly decreases under low R:FR light (high density), correlating with variations in leaf angle and plant height under various densities. In addition, we identified the homeobox transcription factor HB53 as a target co-repressed by both phyB and LG1 but rapidly induced by canopy shade. Genetic and cellular analyses showed that HB53 regulates plant architecture by controlling the elongation and division of ligular adaxial and abaxial cells. Taken together, these findings uncover the phyB-LG1-HB53 regulatory module as a key molecular mechanism governing plant architecture and density tolerance, providing potential genetic targets for breeding maize hybrid varieties suitable for high-density planting.
论文链接:https://www.sciencedirect.com/science/article/pii/S1674205224002181