Co-option of a default secretory pathway for plant immune responses | |
Article | |
关键词: DISEASE-RESISTANCE; NONHOST RESISTANCE; SNARE-PROTEIN; PENETRATION RESISTANCE; ARABIDOPSIS-THALIANA; CALLOSE SYNTHASE; MEMBRANE-FUSION; COMPLEX; CELLS; REORGANIZATION; | |
DOI : 10.1038/nature06545 | |
来源: SCIE |
【 摘 要 】
Cell- autonomous immunity is widespread in plant - fungus interactions and terminates fungal pathogenesis either at the cell surface or after pathogen entry. Although post- invasive resistance responses typically coincide with a self- contained cell death of plant cells undergoing attack by parasites, these cells survive pre- invasive defence. Mutational analysis in Arabidopsis identified PEN1 syntaxin as one component of two pre- invasive resistance pathways against ascomycete powdery mildew fungi(1-3). Here we show that plasma- membrane- resident PEN1 promiscuously forms SDS- resistant soluble N- ethylmaleimide sensitive factor attachment protein receptor ( SNARE) complexes together with the SNAP33 adaptor and a subset of vesicle- associated membrane proteins ( VAMPs). PEN1- dependent disease resistance acts in vivo mainly through two functionally redundant VAMP72 subfamily members, VAMP721 and VAMP722. Unexpectedly, the same two VAMP proteins also operate redundantly in a default secretory pathway, suggesting dual functions in separate biological processes owing to evolutionary co- option of the default pathway for plant immunity. The disease resistance function of the secretory PEN1 - SNAP33 - VAMP721/ 722 complex and the pathogen- induced subcellular dynamics of its components are mechanistically reminiscent of immunological synapse formation in vertebrates, enabling execution of immune responses through focal secretion.
【 授权许可】
Free