中文摘要：

植物与病原菌在长期的共进化和相互选择的过程中,逐渐形成了组织障碍、非寄主抗性和小种专化抗性等有效的防御机制。小种专化抗性（基因对基因抗性）主要是由植物抗病基因识别相应的病原菌无毒基因并激活植物体内抗病信号进而抵御病原菌的侵染。从目前已克隆的 70 多个抗病基因来看,它们在结构上具有高度保守性,主要包括核苷酸结合位点（NBS）,亮氨酸重复结构（LRR）, 蛋白激酶结构域（PK）, 果蝇蛋白 Toll 和哺乳动物蛋白质白细胞介素 1 受体[interleukin（IL）-1 receptor]类似结构域（TIR）, 双螺旋结构（CC）或亮氨酸拉链（LZ）和跨膜结构域（TM）等,其在抗病基因与病原菌无毒（效应）蛋白互作以及植物内部免疫信号传导中起着重要的作用。同时,抗病基因又通过基因复制、遗传重组等进化机制形成多基因家族,为植物抗病的专化性和多样性提供了重要的遗传基础。本文主要讨论了近来已克隆抗病基因的结构特征、功能以及抗病基因进化机制研究的进展。

英文摘要：

Plants employ multifaceted mechanisms to fight with numerous pathogens in nature. Resistance （R） genes are the most effective weapons against pathogen invasion since they can specifically recognize the corresponding pathogen effectors or associated protein（s） to activate plant immune responses at the site of infection. Up to date, over 70 R genes have been isolated from various plant species. Most R proteins contain conserved motifs such as nucleotide-binding site （NBS）, leucine-rich repeat （LRR）, Toll-interleukin-1 receptor domain （TIR, homologous to cytoplasmic domains of the Drosophila Toll protein and the manamalian intefleukin-1 receptor）, coiled-coil （CC） or leucine zipper （LZ） structure and protein kinase domain （PK）. Recent results indicate that these domains play significant roles in R protein interactions with effector proteins from pathogens and in activating signal transduction pathways involved in innate immunity. This review highlights an overview of the recent progress in elucidating the structure, function and evolution of the isolated R genes in different plant-pathogen interaction systems.