Joint Center for Single Cell Biology, Key Laboratory of Urban Agriculture Ministry of Agriculture, School of Agriculture and Biology, Shanghai Jiao Tong University, Shanghai, 200240, China.
J Integr Plant Biol. 2020 Sep;62(9):1327-1340. doi: 10.1111/jipb.12977. Epub 2020 Jul 17.
Plant UV-B responses are mediated by the photoreceptor UV RESISTANCE LOCUS 8 (UVR8). In response to UV-B irradiation, UVR8 homodimers dissociate into monomers that bind to the E3 ubiquitin ligase CONSTITUTIVE PHOTOMORPHOGENIC1 (COP1). The interaction of the C27 domain in the C-terminal tail of UVR8 with the WD40 domain of COP1 is critical for UV-B signaling. However, the function of the last 17 amino acids (C17) of the C-terminus of UVR8, which are adjacent to C27, is unknown, although they are largely conserved in land plants. In this study, we established that Arabidopsis thaliana UVR8 C17 binds to full-length UVR8, but not to COP1, and reduces COP1 binding to the remaining portion of UVR8, including C27. We hypothesized that overexpression of C17 in a wild-type background would have a dominant negative effect on UVR8 activity; however, C17 overexpression caused strong silencing of endogenous UVR8, precluding a detailed analysis. We therefore generated YFP-UVR8 transgenic lines, in which C17 was deleted, to examine C17 function indirectly. YFP-UVR8 was more active than YFP-UVR8, suggesting that C17 inhibits UV-B signaling by attenuating binding between C27 and COP1. Our study reveals an inhibitory role for UVR8 C17 in fine-tuning UVR8-COP1 interactions during UV-B signaling.
植物的 UV-B 响应是由光受体 UV 抗性 LOCUS 8(UVR8)介导的。在响应 UV-B 照射时,UVR8 同源二聚体解离成单体,与 E3 泛素连接酶 CONSTITUTIVE PHOTOMORPHOGENIC1(COP1)结合。UVR8 C 末端尾部的 C27 结构域与 COP1 的 WD40 结构域的相互作用对于 UV-B 信号传递至关重要。然而,UVR8 C 末端的最后 17 个氨基酸(C17)的功能是未知的,尽管它们在陆生植物中广泛保守,这些氨基酸与 C27 相邻。在本研究中,我们确定拟南芥 UVR8 C17 与全长 UVR8 结合,但不与 COP1 结合,并减少 COP1 与 UVR8 其余部分(包括 C27)的结合。我们假设在野生型背景下过表达 C17 会对 UVR8 活性产生显性负效应;然而,C17 的过表达导致内源性 UVR8 的强烈沉默,从而排除了详细的分析。因此,我们生成了 YFP-UVR8 转基因系,其中 C17 被删除,以间接研究 C17 的功能。YFP-UVR8 比 YFP-UVR8 更活跃,这表明 C17 通过减弱 C27 和 COP1 之间的结合来抑制 UV-B 信号传递。我们的研究揭示了 UVR8 C17 在 UV-B 信号传递过程中精细调节 UVR8-COP1 相互作用的抑制作用。
