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Protein trafficking during plant innate immunity 被引量:4
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作者 Wen-Ming Wang Peng-Qiang Liu +1 位作者 Yong-Ju Xu Shunyuan Xiao 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2016年第4期284-298,共15页
Plants have evolved a sophisticated immune system to fight against pathogenic microbes. Upon detection of pathogen invasion by immune receptors, the immune system is turned on, resulting in production of antimicrobial... Plants have evolved a sophisticated immune system to fight against pathogenic microbes. Upon detection of pathogen invasion by immune receptors, the immune system is turned on, resulting in production of antimicrobial molecules including pathogenesis-related(PR) proteins.Conceivably, an efficient immune response depends on the capacity of the plant cell's protein/membrane trafficking network to deploy the right defense-associated molecules in the right place at the right time. Recent research in this area shows that while the abundance of cell surface immune receptors is regulated by endocytosis, many intracellular immune receptors, when activated, are partitioned between the cytoplasm and the nucleus for induction of defense genes and activation of programmed cell death, respectively. Vesicle transport is an essential process for secretion of PR proteins to the apoplastic space and targeting of defense-related proteins to the plasma membrane or other endomembrane compartments. In this review, we discuss the various aspects of protein trafficking during plant immunity, with a focus on the immunity proteins on the move and the major components of the trafficking machineries engaged. 展开更多
关键词 Endocytic trafficking nucleocytoplasmic partitioning programmed cell death small GTPase SNARE vesicle transport
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