Plant Development Group, Institute for Plant Biochemistry and Photosynthesis, CSIC-Universidad de Sevilla, 41092 Sevilla, Spain.
Plant Development Group, Institute for Plant Biochemistry and Photosynthesis, CSIC-Universidad de Sevilla, 41092 Sevilla, Spain.
Mol Plant. 2022 Nov 7;15(11):1710-1724. doi: 10.1016/j.molp.2022.09.017. Epub 2022 Sep 23.
In Arabidopsis, photoperiodic flowering is controlled by the regulatory hub gene CONSTANS (CO), whereas floral organ senescence is regulated by the jasmonates (JAs). Because these processes are chronologically ordered, it remains unknown whether there are common regulators of both processes. In this study, we discovered that CO protein accumulates in Arabidopsis flowers after floral induction, and it displays a diurnal pattern in floral organs different from that in the leaves. We observed that altered CO expression could affect flower senescence and abscission by interfering with JA response, as shown by petal-specific transcriptomic analysis as well as CO overexpression in JA synthesis and signaling mutants. We found that CO has a ZIM (ZINC-FINGER INFLORESCENCE MERISTEM) like domain that mediates its interaction with the JA response repressor JAZ3 (jasmonate ZIM-domain 3). Their interaction inhibits the repressor activity of JAZ3, resulting in activation of downstream transcription factors involved in promoting flower senescence. Furthermore, we showed that CO, JAZ3, and the E3 ubiquitin ligase COI1 (Coronatine Insensitive 1) could form a protein complex in planta, which promotes the degradation of both CO and JAZ3 in the presence of JAs. Taken together, our results indicate that CO, a key regulator of photoperiodic flowering, is also involved in promoting flower senescence and abscission by augmenting JA signaling and response. We propose that coordinated recruitment of photoperiodic and JA signaling pathways could be an efficient way for plants to chronologically order floral processes and ensure the success of offspring production.
在拟南芥中,光周期开花受调控枢纽基因 CONSTANS(CO)调控,而花器官衰老则受茉莉酸(JAs)调控。由于这两个过程是按时间顺序进行的,因此尚不清楚这两个过程是否存在共同的调控因子。在本研究中,我们发现 CO 蛋白在花诱导后在拟南芥花中积累,并且其在花器官中的表达模式与叶片中的表达模式不同,具有昼夜节律。我们观察到改变 CO 的表达可以通过干扰 JA 反应来影响花衰老和脱落,这一点通过花瓣特异性转录组分析以及在 JA 合成和信号突变体中过表达 CO 得到证实。我们发现 CO 具有一个 ZIM(锌指 INFLORESCENCE 分生组织)样结构域,该结构域介导其与 JA 反应抑制因子 JAZ3(茉莉酸 ZIM 结构域 3)的相互作用。它们的相互作用抑制了 JAZ3 的抑制活性,导致参与促进花衰老的下游转录因子的激活。此外,我们表明 CO、JAZ3 和 E3 泛素连接酶 COI1(冠状素不敏感 1)可以在植物体内形成一个蛋白质复合物,该复合物在 JAs 的存在下促进 CO 和 JAZ3 的降解。综上所述,我们的结果表明,作为光周期开花的关键调节因子,CO 还通过增强 JA 信号和反应参与促进花衰老和脱落。我们提出,光周期和 JA 信号通路的协调招募可能是植物按时间顺序安排花器官过程并确保后代成功产生的有效方式。
