Tobacco Research Institute, Chinese Academy of Agricultural Sciences (CAAS), Qingdao, China.
Graduate School of Chinese Academy of Agricultural Sciences (GSCAAS), Beijing, China.
Plant Cell Environ. 2023 Oct;46(10):3012-3022. doi: 10.1111/pce.14396. Epub 2022 Jul 25.
Plants have evolved to deal with different stresses during plant growth, relying on complex interactions or crosstalk between multiple signalling pathways in plant cells. In this sophisticated regulatory network, Ca transients in the cytosol ([Ca ] ) act as major physiological signals to initiate appropriate responses. The CALCINEURIN B-LIKE PROTEIN (CBL)-CBL-INTERACTING PROTEIN KINASE (CIPK) network relays physiological signals characterised by [Ca ] transients during plant development and in response to environmental changes. Many studies are aimed at elucidating the role of the CBL-CIPK network in plant growth and stress responses. This review discusses the involvement of the CBL-CIPK pathways in two levels of crosstalk between plant development and stress adaptation: direct crosstalk through interaction with regulatory proteins, and indirect crosstalk through adaptation of correlated physiological processes that affect both plant development and stress responses. This review thus provides novel insights into the physiological roles of the CBL-CIPK network in plant growth and stress adaptation.
植物在生长过程中会进化出应对不同胁迫的能力,依赖于植物细胞中多个信号通路之间的复杂相互作用或串扰。在这个复杂的调控网络中,细胞质中的 Ca 瞬变([Ca2+])作为主要的生理信号,启动适当的响应。钙调神经磷酸酶 B 类似蛋白(CBL)-CBL 相互作用蛋白激酶(CIPK)网络传递以 Ca 瞬变为特征的生理信号,在植物发育过程中以及响应环境变化时发挥作用。许多研究旨在阐明 CBL-CIPK 网络在植物生长和应激反应中的作用。本文综述了 CBL-CIPK 途径在植物发育和应激适应之间的两种串扰水平中的作用:通过与调节蛋白的直接相互作用进行的直接串扰,以及通过影响植物发育和应激反应的相关生理过程的间接串扰。因此,本文为 CBL-CIPK 网络在植物生长和应激适应中的生理作用提供了新的见解。
