Instituto de Biología Molecular y Celular de Plantas, Consejo Superior de Investigaciones Científicas-Universidad Politécnica de Valencia, Valencia, Spain.
Plant Genome and Systems Biology, Helmholtz Center Munich, German Research Center for Environmental Health, Munich-Neuherberg, Germany.
J Exp Bot. 2021 Feb 2;72(2):757-774. doi: 10.1093/jxb/eraa476.
The identification of those prevalent abscisic acid (ABA) receptors and molecular mechanisms that trigger drought adaptation in crops well adapted to harsh conditions such as date palm (Phoenix dactylifera, Pd) sheds light on plant-environment interactions. We reveal that PdPYL8-like receptors are predominantly expressed under abiotic stress, with Pd27 being the most expressed receptor in date palm. Therefore, subfamily I PdPYL8-like receptors have been selected for ABA signaling during abiotic stress response in this crop. Biochemical characterization of PdPYL8-like and PdPYL1-like receptors revealed receptor- and ABA-dependent inhibition of PP2Cs, which triggers activation of the pRD29B-LUC reporter in response to ABA. PdPYLs efficiently abolish PP2C-mediated repression of ABA signaling, but loss of the Trp lock in the seed-specific AHG1-like phosphatase PdPP2C79 markedly impairs its inhibition by ABA receptors. Characterization of Arabidopsis transgenic plants that express PdPYLs shows enhanced ABA signaling in seed, root, and guard cells. Specifically, Pd27-overexpressing plants showed lower ABA content and were more efficient than the wild type in lowering transpiration at negative soil water potential, leading to enhanced drought tolerance. Finally, PdPYL8-like receptors accumulate after ABA treatment, which suggests that ABA-induced stabilization of these receptors operates in date palm for efficient boosting of ABA signaling in response to abiotic stress.
鉴定那些在逆境中适应能力强的作物(如枣椰树(Phoenix dactylifera,Pd))中普遍存在的脱落酸(ABA)受体和触发其适应干旱的分子机制,揭示了植物与环境的相互作用。我们发现 PdPYL8 样受体主要在非生物胁迫下表达,Pd27 是枣椰树中表达最丰富的受体。因此,在该作物的非生物胁迫响应中,选择了 I 亚家族的 PdPYL8 样受体进行 ABA 信号转导。对 PdPYL8 样和 PdPYL1 样受体的生化特性进行了研究,揭示了受体和 ABA 依赖性的 PP2C 抑制,从而触发了 pRD29B-LUC 报告基因对 ABA 的响应。PdPYLs 有效地消除了 PP2C 介导的 ABA 信号抑制,但在种子特异性 AHG1 样磷酸酶 PdPP2C79 中失去色氨酸锁后,其对 ABA 受体的抑制作用明显受损。表达 PdPYLs 的拟南芥转基因植物的特征表明,种子、根和保卫细胞中的 ABA 信号增强。具体来说,Pd27 过表达植物的 ABA 含量较低,在负土壤水势下降低蒸腾作用的效率比野生型更高,从而增强了耐旱性。最后,ABA 处理后 PdPYL8 样受体积累,这表明 ABA 诱导这些受体的稳定性在枣椰树中起作用,以有效地增强对非生物胁迫的 ABA 信号转导。
