时钟元件 OsLUX 通过招募 OsELF3-1 和 OsELF4s 来抑制 Hd1 和 Ghd7,从而调控水稻抽穗。
The clock component OsLUX regulates rice heading through recruiting OsELF3-1 and OsELF4s to repress Hd1 and Ghd7.
机构信息
China National Center for Rice Improvement and State Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, China; Rice Research Institute, Key Laboratory of Application and Safety Control of Genetically Modified Crops, Academy of Agricultural Sciences, Southwest University, Chongqing 400715, China.
China National Center for Rice Improvement and State Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, China.
出版信息
J Adv Res. 2023 Jun;48:17-31. doi: 10.1016/j.jare.2022.08.001. Epub 2022 Aug 6.
INTRODUCTION
Circadian clocks coordinate internal physiology and external environmental factors to regulate cereals flowering, which is critical for reproductive growth and optimal yield determination.
OBJECTIVES
In this study, we aimed to confirm the role of OsLUX in flowering time regulation in rice. Further research illustrates how the OsELF4s-OsELF3-1-OsLUX complex directly regulates flowering-related genes to mediate rice heading.
METHODS
We identified a circadian gene OsLUX by the MutMap method. The transcription levels of flowering-related genes were evaluated in WT and oslux mutants. OsLUX forms OsEC (OsELF4s-OsELF3-1-OsLUX) complex were supported by yeast two-hybrid, pull down, BiFC, and luciferase complementation assays (LCA). The EMSA, Chip-qPCR, luciferase luminescence images, and relative LUC activity assays were performed to examine the targeted regulation of flowering genes by the OsEC (OsELF4s-OsELF3-1-OsLUX) complex.
RESULTS
The circadian gene OsLUX encodes an MYB family transcription factor that functions as a vital circadian clock regulator and controls rice heading. Defect in OsLUX causes an extremely late heading phenotype under natural long-day and short-day conditions, and the function was further confirmed through genetic complementation, overexpression, and CRISPR/Cas9 knockout. OsLUX forms the OsEC (OsELF4s-OsELF3-1-OsLUX) complex by recruiting OsELF3-1 and OsELF4s, which were required to regulate rice heading. OsELF3-1 contributes to the translocation of OsLUX to the nucleus, and a compromised flowering phenotype results upon mutation of any component of the OsEC complex. The OsEC complex directly represses Hd1 and Ghd7 expression via binding to their promoter's LBS (LUX binding site) element.
CONCLUSION
Our findings show that the circadian gene OsLUX regulates rice heading by directly regulating rhythm oscillation and core flowering-time-related genes. We uncovered a mechanism by which the OsEC target suppresses the expression of Hd1 and Ghd7 directly to modulate photoperiodic flowering in rice. The OsEC (OsELF4s-OsELF3-1-OsLUX)-Hd1/Ghd7 regulatory module provides the genetic targets for crop improvement.
简介
生物钟协调内部生理和外部环境因素来调控谷类开花,这对生殖生长和最佳产量决定至关重要。
目的
本研究旨在证实 OsLUX 在水稻开花时间调控中的作用。进一步的研究说明了 OsELF4s-OsELF3-1-OsLUX 复合物如何直接调控与开花相关的基因,从而介导水稻抽穗。
方法
我们通过 MutMap 方法鉴定了一个生物钟基因 OsLUX。在 WT 和 oslux 突变体中评估了与开花相关的基因的转录水平。酵母双杂交、下拉、BiFC 和荧光素酶互补测定(LCA)支持 OsLUX 形成 OsEC(OsELF4s-OsELF3-1-OsLUX)复合物。进行 EMSA、Chip-qPCR、荧光素酶发光图像和相对 LUC 活性测定,以检查 OsEC(OsELF4s-OsELF3-1-OsLUX)复合物对开花基因的靶向调控。
结果
生物钟基因 OsLUX 编码一个 MYB 家族转录因子,作为一个重要的生物钟调控因子,控制水稻抽穗。OsLUX 缺陷导致在自然长日和短日条件下极端晚抽穗表型,并且通过遗传互补、过表达和 CRISPR/Cas9 敲除进一步证实了该功能。OsLUX 通过募集 OsELF3-1 和 OsELF4s 形成 OsEC(OsELF4s-OsELF3-1-OsLUX)复合物,这对于调控水稻抽穗是必需的。OsELF3-1 有助于 OsLUX 向核内易位,并且当 OsEC 复合物的任何成分发生突变时,都会导致开花表型受损。OsEC 复合物通过结合其启动子的 LBS(LUX 结合位点)元件直接抑制 Hd1 和 Ghd7 的表达。
结论
我们的研究结果表明,生物钟基因 OsLUX 通过直接调控节律振荡和核心开花时间相关基因来调节水稻抽穗。我们揭示了 OsEC 靶向抑制 Hd1 和 Ghd7 表达的机制,从而调节水稻光周期开花。OsEC(OsELF4s-OsELF3-1-OsLUX)-Hd1/Ghd7 调节模块为作物改良提供了遗传靶标。
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