Zhang Yongqiang, Liu Zhongjuan, Wang Jianfeng, Chen Yadi, Bi Yurong, He Junxian
School of Life Sciences and State Key Laboratory of Agrobiotechnology, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong SAR, China.
Planta. 2015 Oct;242(4):881-93. doi: 10.1007/s00425-015-2328-y. Epub 2015 May 22.
Brassinosteroid is necessary for sugar promotion of Arabidopsis hypocotyl elongation in darkness, and sugar positively regulates BRASSINAZOLE RESISTANT1 (BZR1) at both transcription and protein levels. Sugar has the ability to induce Arabidopsis hypocotyl elongation in the dark, but the detailed mechanisms remain not well understood. Here, we report that the steroidal phytohormone brassinosteroid (BR) is involved in sugar promotion of hypocotyl elongation in the dark. Sugar-induced hypocotyl elongation was significantly repressed in the BR-deficient mutant det2-1, BR-insensitive mutant bri1-5, and wild-type plants (Col-0), but not in the BR-hypersensitive mutants bzr1-1D and bes1-D treated with the BR biosynthetic inhibitor brassinazole (BRZ). Sugar also up-regulated the expression of genes that are related to cell elongation in a BR-dependent manner, and this effect was more remarkable in bzr1-1D and bes1-D than in their corresponding wild types in the presence of BRZ, suggesting an important role of BZR1 and bri1-ems-suppressor 1 (BES1) in this process. Sugar treatment seems to have little effect on BR biosynthesis, but enhances the expression of BZR1 and BES1, two transcription factors in BR signaling, in the dark. Furthermore, sugar treatment maintains higher BZR1 protein levels in plants grown in the dark. Collectively, our results indicate that BR is required for sugar promotion of hypocotyl elongation in darkness in Arabidopsis.
油菜素内酯对于黑暗条件下糖促进拟南芥下胚轴伸长是必需的,并且糖在转录和蛋白质水平上正向调节抗油菜素唑1(BZR1)。糖具有在黑暗中诱导拟南芥下胚轴伸长的能力,但其详细机制仍不清楚。在此,我们报道甾体类植物激素油菜素内酯(BR)参与了黑暗中糖对下胚轴伸长的促进作用。在BR缺陷型突变体det2-1、BR不敏感型突变体bri1-5和野生型植物(Col-0)中,糖诱导的下胚轴伸长受到显著抑制,但在用BR生物合成抑制剂油菜素唑(BRZ)处理的BR超敏感型突变体bzr1-1D和bes1-D中则没有。糖还以BR依赖的方式上调了与细胞伸长相关基因的表达,并且在存在BRZ的情况下,这种效应在bzr1-1D和bes1-D中比在其相应的野生型中更显著,表明BZR1和油菜素内酯不敏感突变体抑制子1(BES1)在此过程中起重要作用。糖处理似乎对BR生物合成影响不大,但在黑暗中增强了BR信号传导中的两个转录因子BZR1和BES1的表达。此外,糖处理使黑暗中生长的植物中的BZR1蛋白水平保持较高。总体而言,我们的结果表明,BR是拟南芥黑暗中糖促进下胚轴伸长所必需的。
