Department of Life Sciences, Graduate School of Arts and Sciences, The University of Tokyo, Tokyo, 153-8902, Japan.
Faculty of Agriculture, Kyushu University, Fukuoka, 819-0395, Japan.
Plant Cell Environ. 2019 May;42(5):1615-1629. doi: 10.1111/pce.13510. Epub 2019 Jan 28.
Brassinosteroid (BR) signalling is known to be coordinated with light signalling in above ground tissue. Many studies focusing on the shade avoidance response in above ground tissue or hypocotyl elongation in darkness have revealed the contribution of the BR signalling pathway to these processes. We previously analysed the expression of DWARF 4 (DWF4), a key BR biosynthesis enzyme, and revealed that light perception in above ground tissues triggered DWF4 accumulation in root tips. To determine the required wavelength of light and photoreceptors responsible for this regulation, we studied DWF4-GUS marker plants grown in several monochromatic light conditions. We revealed that monochromatic blue LED light could induce DWF4 accumulation in primary root tips and root growth as much as white light, whereas monochromatic red LED could not. Consistent with this, a cryptochrome1/2 double mutant showed retarded root growth under white light whereas a phytochromeA/B double mutant did not. Taken together, our data strongly indicated that blue light signalling was important for DWF4 accumulation in root tips and root growth. Furthermore, DWF4 accumulation patterns in primary root tips were not altered by auxin or sugar treatment. Therefore, we hypothesize that blue light signalling from the shoot tissue is different from auxin and sugar signalling.
油菜素内酯(BR)信号被认为与地上组织中的光信号协调。许多专注于地上组织中避荫反应或黑暗中下胚轴伸长的研究揭示了 BR 信号通路对这些过程的贡献。我们之前分析了矮化 4(DWF4)的表达,DWF4 是 BR 生物合成酶的关键酶,结果表明地上组织中的光感知触发了根尖 DWF4 的积累。为了确定负责这种调节的所需光波长和光受体,我们研究了在几种单色光条件下生长的 DWF4-GUS 标记植物。我们发现,单色蓝光 LED 光可以像白光一样诱导主根根尖 DWF4 的积累和根生长,而单色红光 LED 光则不能。与此一致的是,隐花色素 1/2 双突变体在白光下表现出根生长迟缓,而光敏色素 A/B 双突变体则没有。总之,我们的数据强烈表明蓝光信号对于根尖 DWF4 的积累和根生长很重要。此外,生长素或糖处理不会改变主根根尖 DWF4 的积累模式。因此,我们假设来自地上组织的蓝光信号与生长素和糖信号不同。
