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机译:Hos15和HDA9通过在拟南芥中的细胞内免疫受体NLR基因的组蛋白脱乙酰化来负面调节免疫
Cornell Univ Sch Integrat Plant Sci Plant Biol Sect Ithaca NY 14853 USA;
Univ Wisconsin Lab Genet Madison WI 53706 USA;
Cornell Univ Sch Integrat Plant Sci Plant Biol Sect Ithaca NY 14853 USA;
Cornell Univ Cornell Computat Biol Serv Unit Ithaca NY 14853 USA;
Cornell Univ Sch Integrat Plant Sci Plant Biol Sect Ithaca NY 14853 USA;
Cornell Univ Sch Integrat Plant Sci Plant Biol Sect Ithaca NY 14853 USA;
Univ Wisconsin Lab Genet Madison WI 53706 USA;
Cornell Univ Sch Integrat Plant Sci Plant Biol Sect Ithaca NY 14853 USA;
Arabidopsis thaliana; HDA9; histone deacetylation; HOS15; NLR genes; plant immunity;
机译:Hos15和HDA9通过在拟南芥中的细胞内免疫受体NLR基因的组蛋白脱乙酰化来负面调节免疫
机译:Arabidopsis Phd-Finger蛋白EDM2在平衡NLR免疫受体基因表达中具有多种作用
机译:拟南芥RTNLB1和RTNLB2网状蛋白调节细胞内运输和FLS2免疫受体的活性。
机译:模拟编码免疫受体的基因的重排。迈向免疫特异性预测工具
机译:免疫受体的空间组织调节免疫细胞活化:来自重构T细胞受体和FCγ-受体系统的见解
机译:Arabidopsis Phd-Finger蛋白EDM2在平衡NLR免疫受体基因表达中具有多种作用
机译:HDT701,一种组蛋白H4脱乙酰化酶,通过调节水稻中的和外防相关基因的组蛋白H4乙酰化来负调节植物先天免疫