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机译:Lipo-chitooligosacharide信号传导阻断了一种快速的病原体诱导的ROS突发而不会阻碍免疫力
Univ Toulouse CNRS Lab Rech Sci Vegetales UPS 24 Chemin Borde Rouge BP42617 F-31326 Castanet Tolosan France;
Univ Toulouse CNRS Lab Rech Sci Vegetales UPS 24 Chemin Borde Rouge BP42617 F-31326 Castanet Tolosan France;
Univ Toulouse CNRS Lab Rech Sci Vegetales UPS 24 Chemin Borde Rouge BP42617 F-31326 Castanet Tolosan France;
Univ Toulouse CNRS Lab Rech Sci Vegetales UPS 24 Chemin Borde Rouge BP42617 F-31326 Castanet Tolosan France;
Univ Toulouse INRA LIPM CNRS F-31326 Castanet Tolosan France;
Univ Toulouse CNRS Lab Rech Sci Vegetales UPS 24 Chemin Borde Rouge BP42617 F-31326 Castanet Tolosan France;
Univ Toulouse CNRS Lab Rech Sci Vegetales UPS 24 Chemin Borde Rouge BP42617 F-31326 Castanet Tolosan France;
Aphanomyces euteiches; immunity; lipo-chitooligosaccharide (LOS); Medicago truncatula; oomycete; reactive oxygen species (ROS); symbiosis;
机译:Lipo-chitooligosacharide信号传导阻断了一种快速的病原体诱导的ROS突发而不会阻碍免疫力
机译:桑树根瘤菌的脂多糖-壳寡糖结瘤信号导致其被主机植物苜蓿迅速降解
机译:病原体诱导的造血干细胞中的TLR4-TRIF先天实质性免疫信号传导促进增殖,但减少了竞争性健身(第21卷,PG 225,2017)
机译:信号协议,以减少具有有限波长转换能力的光突发切换网状网络中的阻塞概率
机译:肿瘤干扰素信号启动并维持免疫检查站封锁的多基因抗药性计划
机译:来自苜蓿根瘤菌的脂-低聚寡糖结瘤信号诱导其被宿主植物苜蓿快速降解。
机译:Lipo-chitooligosacharide信号传导阻断了一种快速的病原体诱导的ROS突发而不会阻碍免疫力