文献类型: 外文期刊
第一作者: Ruberti, Cristina
作者: Ruberti, Cristina;Feitosa-Araujo, Elias;Wagner, Stephan;Lichtenauer, Sophie;Fuchs, Philippe;Schwarzlaender, Markus;Ruberti, Cristina;Xu, Zhaolong;Grenzi, Matteo;Parmagnani, Ambra Selene;Costa, Alex;Xu, Zhaolong;Wagner, Stephan;Fuchs, Philippe;Darwish, Essam;Van Aken, Olivier;Darwish, Essam;Balcerowicz, Daria;Schoenaers, Sebastjen;Vissenberg, Kris;de la Torre, Carolina;Mekkaoui, Khansa;Hause, Bettina;Nunes-Nesi, Adriano;Wirtz, Markus;Vissenberg, Kris;Costa, Alex;Ruberti, Cristina;Wagner, Stephan;Fuchs, Philippe
作者机构:
期刊名称:PLANT CELL ( 影响因子:12.085; 五年影响因子:12.796 )
ISSN: 1040-4651
年卷期: 2022 年 34 卷 11 期
页码:
收录情况: SCI
摘要: Ca2+ signaling is central to plant development and acclimation. While Ca2+-responsive proteins have been investigated intensely in plants, only a few Ca2+-permeable channels have been identified, and our understanding of how intracellular Ca2+ fluxes is facilitated remains limited. Arabidopsis thaliana homologs of the mammalian channel-forming mitochondrial calcium uniporter (MCU) protein showed Ca2+ transport activity in vitro. Yet, the evolutionary complexity of MCU proteins, as well as reports about alternative systems and unperturbed mitochondrial Ca2+ uptake in knockout lines of MCU genes, leave critical questions about the in vivo functions of the MCU protein family in plants unanswered. Here, we demonstrate that MCU proteins mediate mitochondrial Ca2+ transport in planta and that this mechanism is the major route for fast Ca2+ uptake. Guided by the subcellular localization, expression, and conservation of MCU proteins, we generated an mcu triple knockout line. Using Ca2+ imaging in living root tips and the stimulation of Ca2+ transients of different amplitudes, we demonstrated that mitochondrial Ca2+ uptake became limiting in the triple mutant. The drastic cell physiological phenotype of impaired subcellular Ca2+ transport coincided with deregulated jasmonic acid-related signaling and thigmomorphogenesis. Our findings establish MCUs as a major mitochondrial Ca2+ entry route in planta and link mitochondrial Ca2+ transport with phytohormone signaling. Monitoring of subcellular Ca2+ dynamics in living Arabidopsis roots reveals that MCU proteins provide the dominant mitochondrial Ca2+ uptake mechanism in vivo.
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