Desaki Yoshitake, Kato Tasuku, Nemoto Keiichirou, Nozawa Akira, Uemura Takuya, Ninomiya Naoya, Sawasaki Tatsuya, Arimura Gen-Ichiro
Department of Biological Science and Technology, Faculty of Advanced Engineering, Tokyo University of Science, Tokyo, 125-8585, Japan.
Central Research Institute, Ishihara Sangyo Kaisha, Ltd, Kusatsu, 525-0025, Japan.
J Plant Res. 2025 Jan;138(1):95-103. doi: 10.1007/s10265-024-01586-5. Epub 2024 Oct 17.
Plants defend themselves against herbivores by recognizing herbivore-derived elicitors and activating intracellular signaling. In Arabidopsis, the receptor-like kinase HAK1 recognizes the poly-saccharide elicitor (FrA) from Spodoptera litura larvae, leading to the expression of defense-related genes such as PDF1.2. During this process, the cytoplasmic kinase CRK2 phosphorylates PBL27, triggers the ERF13 expression via ethylene signaling and subsequently leads to PDF1.2 expression. Herein, we investigated four cytoplasmic kinases from the same receptor-like cytoplasmic kinase (RLCK) VII family as PBL27 that interacts with CRK2. Among them, PBL11, like PBL27, is phosphorylated by CRK2 and induces PDF1.2 expression but does not affect ERF13 expression. The weight gain of S. litura larvae on PBL11-deficient mutant plants was only slightly higher than that of wild-type plants, suggesting that PBL11 may function as a minor RLCK that supports the defense response.
植物通过识别食草动物来源的激发子并激活细胞内信号传导来抵御食草动物。在拟南芥中,类受体激酶HAK1识别斜纹夜蛾幼虫的多糖激发子(FrA),导致防御相关基因如PDF1.2的表达。在此过程中,细胞质激酶CRK2使PBL27磷酸化,通过乙烯信号传导触发ERF13表达,随后导致PDF1.2表达。在此,我们研究了与CRK2相互作用的、来自与PBL27相同的类受体细胞质激酶(RLCK)VII家族的四种细胞质激酶。其中,PBL11与PBL27一样,被CRK2磷酸化并诱导PDF1.2表达,但不影响ERF13表达。斜纹夜蛾幼虫在PBL11缺陷型突变体植物上的体重增加仅略高于野生型植物,这表明PBL11可能作为一种次要的RLCK发挥作用,支持防御反应。
