机译:谷胱甘肽信号传导通过依赖NPR1的SA介导的途径来减轻生物应激。
disease resistance; enzymes; fungal diseases; gene expression; genes; genetic engineering; genetic transformation; glutathione; glutathione transferase; pathogenesis-related proteins; plant diseases; plant pathogenic bacteria; plant pathogenic fungi; plant pathogens; salicylic acid; signal transduction; stress; stress response; tobacco; transgenic plants; Botrytis cinerea; fungi; Nicotiana; Nicotiana tabacum; plants; Pseudomonas syringae; Botrytis; Sclerotiniaceae; Helotiales; Leotiomycetes; Pezizomycotina; Ascomycota; fungi; fungus; eukaryotes; Nicotiana; Solanaceae; Solanales; dicotyledons; angiosperms; Spermatophyta; plants; Pseudomonas; Pseudomonadaceae; Pseudomonadales; Gammaproteobacteria; Proteobacteria; Bacteria; bacterium; prokaryotes; bacterium; fungus; genetic manipulation; genetically engineered plants; genetically modified plants; GMOs; hydroperoxide dehydratase; ligandin; phytopathogenic bacteria; phytopathogenic fungi; phytopathogens; plant-pathogenic bacteria;
机译:谷胱甘肽信号传导通过依赖NPR1的SA介导的途径来减轻生物应激。
机译:谷胱甘肽在生物胁迫下在植物信号转导中的作用。
机译:谷胱甘肽-S-转移酶OMEGA 1(GSTO1-1)作为参与阿凡毒素BL诱导的巨噬细胞凋亡 - 自噬串扰的信号通路的介质
机译:SO-2诱导甘薯气孔关闭,并在H-2S和NO信号通路上游起作用
机译:MAP激酶信号传导在植物对生物胁迫的响应中。
机译:谷胱甘肽信号传导通过依赖NPR1的SA介导的途径减轻生物压力
机译:谷胱甘肽信号传导通过依赖NPR1的SA介导的途径减轻生物压力