水稻 R2R3 MYB 转录因子 FOUR LIPS 将黄铜类固醇信号与木质素沉积和叶片角度联系起来

The Plant Cell Pub Date : 2024-09-11 DOI:10.1093/plcell/koae251

Huichao Liu, Jie Zhang, Junxue Wang, Zhibin Fan, Xiaoxiao Qu, Min Yan, Chunxia Zhang, Kezhen Yang, Junjie Zou, Jie Le

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引用次数: 0

摘要

叶片角度是影响作物结构和产量的重要农艺性状。在水稻（Oryza sativa）中，叶片关节是连接叶片和叶鞘的独特结构，它决定了叶片的角度。芸苔素类固醇（BR）信号传导涉及 GLYCOGEN SYNTHASE KINASE-3 (GSK3)/SHAGGY-like 激酶和 BRASSINAZOLE-RESISTANT1 (BZR1)，在调节水稻叶片角度方面起着核心作用。在这项研究中，我们发现了非典型 R2R3-MYB 转录因子 FOUR LIPS（OsFLP），它是拟南芥（Arabidopsis thaliana）AtFLP 的水稻同源物，参与了 BR 调控的叶角形成。OsFLP在叶片连接处表达的时空特异性与维管束和叶脉细胞中木质素的沉积密切相关。OsFLP 突变导致植物结构松散，旗叶下垂，并对 BRs 过敏。OsBZR1 直接靶向 OsFLP，OsFLP 将 BR 信号转导至木质素在叶片连接处的沉积。此外，OsFLP 还促进了苯丙氨酸氨解酶家族基因 OsPAL4 和 OsPAL6 的转录。耐人寻味的是，OsFLP 反馈调节了 OsGSK1 的转录和 OsBZR1 的磷酸化状态。此外，OsFLP R3螺旋-转螺旋结构域中的Ala-Thr取代（与Osflp-1中的突变相当）影响了OsFLP的DNA结合能力和转录活性。我们的研究结果表明，OsFLP与OsGSK1和OsBZR1一起在BR信号转导中发挥作用，通过调节叶片关节机械组织中的木质素沉积来维持最佳叶片角度。

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The rice R2R3 MYB transcription factor FOUR LIPS connects brassinosteroid signaling to lignin deposition and leaf angle

Leaf angle is an important agronomic trait for crop architecture and yield. In rice (Oryza sativa), the lamina joint is a unique structure connecting the leaf blade and sheath that determines leaf angle. Brassinosteroid (BR) signaling involving GLYCOGEN SYNTHASE KINASE-3 (GSK3)/SHAGGY-like kinases and BRASSINAZOLE-RESISTANT1 (BZR1) has a central role in regulating leaf angle in rice. In this study, we identified the atypical R2R3-MYB transcription factor FOUR LIPS (OsFLP), the rice homolog of Arabidopsis (Arabidopsis thaliana) AtFLP, as a participant in BR-regulated leaf angle formation. The spatiotemporal specificity of OsFLP expression in the lamina joint was closely associated with lignin deposition in vascular bundles and sclerenchyma cells. OsFLP mutation caused loose plant architecture with droopy flag leaves and hypersensitivity to BRs. OsBZR1 directly targeted OsFLP, and OsFLP transduced BR signals to lignin deposition in the lamina joint. Moreover, OsFLP promoted the transcription of the phenylalanine ammonia-lyase family genes OsPAL4 and OsPAL6. Intriguingly, OsFLP feedback regulated OsGSK1 transcription and OsBZR1 phosphorylation status. In addition, an Ala-to-Thr substitution within the OsFLP R3 helix-turn-helix domain, an equivalent mutation to that in Osflp-1, affected the DNA-binding ability and transcriptional activity of OsFLP. Our results reveal that OsFLP functions with OsGSK1 and OsBZR1 in BR signaling to maintain optimal leaf angle by modulating the lignin deposition in mechanical tissues of the lamina joint.

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The Plant Cell

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