机构地区:[1]Department of Plant Genetics, Breeding and Biotechnology, Faculty of Horticulture and Landscape Architecture, Warsaw University ofLife Sciences--SGGW, Nowoursynowska 159, Warsaw, 02-776, Poland [2]Department of Botany, Faculty of Agriculture and Biology, Warsaw University of Life Sciences--SGGW, Nowoursynowska 159, Warsaw,02-776, Poland
出 处:《Molecular Plant》2014年第7期1151-1166,共16页分子植物(英文版)
摘 要:Mitogen-activated protein kinase (MAPK) pathways regulate signal transduction from different cellular com- partments and from the extracellular environment to the nucleus in all eukaryotes. One of the best-characterized MAPKs in Arabidopsis thaliana is MPK4, which was shown to be a negative regulator of systemic-acquired resistance. The mpk4 mutant accumulates salicylic acid (SA), possesses constitutive expression of pathogenesis-related (PR) genes, and has an extremely dwarf phenotype. We show that suppression of SA and phylloquinone synthesis in chloroplasts by knocking down the IC51 gene (by crossing it with the icsl mutant) in the mpk4 mutant background did not revert mpk4-impaired growth. However, it did cause changes in the photosynthetic apparatus and severely impaired the quantum yield of pho- tosystem Ih Transmission microscopy analysis revealed that the chloroplasts' structure was strongly altered in the mpk4 and mpk4/icsl double mutant. Analysis of reactive oxygen species (ROS)-scavenging enzymes expression showed that suppression of SA and phylloquinone synthesis in the chloroplasts of the mpk4 mutant caused imbalances in ROS homeo- stasis which were more pronounced in mpk4/icsl than in mpk4. Taken together, the presented results strongly suggest that MPK4 is an ROS/hormonal rheostat hub that negatively, in an SA-dependent manner, regulates immune defenses, but at the same time positively regulates photosynthesis, ROS metabolism, and growth. Therefore, we concluded that MPK4 is a complex regulator of chloroplastic retrograde signaling for photosynthesis, growth, and immune defenses in Arabidopsis.Mitogen-activated protein kinase (MAPK) pathways regulate signal transduction from different cellular com- partments and from the extracellular environment to the nucleus in all eukaryotes. One of the best-characterized MAPKs in Arabidopsis thaliana is MPK4, which was shown to be a negative regulator of systemic-acquired resistance. The mpk4 mutant accumulates salicylic acid (SA), possesses constitutive expression of pathogenesis-related (PR) genes, and has an extremely dwarf phenotype. We show that suppression of SA and phylloquinone synthesis in chloroplasts by knocking down the IC51 gene (by crossing it with the icsl mutant) in the mpk4 mutant background did not revert mpk4-impaired growth. However, it did cause changes in the photosynthetic apparatus and severely impaired the quantum yield of pho- tosystem Ih Transmission microscopy analysis revealed that the chloroplasts' structure was strongly altered in the mpk4 and mpk4/icsl double mutant. Analysis of reactive oxygen species (ROS)-scavenging enzymes expression showed that suppression of SA and phylloquinone synthesis in the chloroplasts of the mpk4 mutant caused imbalances in ROS homeo- stasis which were more pronounced in mpk4/icsl than in mpk4. Taken together, the presented results strongly suggest that MPK4 is an ROS/hormonal rheostat hub that negatively, in an SA-dependent manner, regulates immune defenses, but at the same time positively regulates photosynthesis, ROS metabolism, and growth. Therefore, we concluded that MPK4 is a complex regulator of chloroplastic retrograde signaling for photosynthesis, growth, and immune defenses in Arabidopsis.
关 键 词:chloroplast ultrastructure growth and photosynthesis regulation PHYLLOQUINONE reactive oxygen species(ROS) retrograde signaling and salicylic acid (SA).
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