外囊肿
生物
内膜系统
细胞生物学
拟南芥
突变体
分泌物
拟南芥
突变
胞质分裂
基因
微泡
烟草
GTPase激活蛋白
囊泡转运蛋白
遗传学
生物发生
真菌蛋白
布雷菲尔德A
胞吐
细胞外
点突变
GTP酶
ESCRT公司
分泌途径
转运蛋白
蛋白质亚单位
电池板
野生型
外体
遗传筛选
生物化学
小泡
真核生物
胞外囊泡
蛋白质-蛋白质相互作用
作者
Benjamin L. Koch,Dillon Gardner,H. A. Smith,Rachel Bracewell,Linnaea Awdey,Jessica Foster,M Lucía Borniego,David Munch,Mads Eggert Nielsen,Raghavendra Rao Pasupuleti,Jonathan C. Trinidad,Brian D. Rutter,Hans Thordal-Christensen,Roger W. Innes
出处
期刊:Plant Physiology
[Oxford University Press]
日期:2026-02-01
卷期号:200 (2)
被引量:4
标识
DOI:10.1093/plphys/kiag011
摘要
Extracellular vesicles (EVs) produced by Arabidopsis (Arabidopsis thaliana) plants are highly heterogeneous in protein content. To understand the origins of plant EV heterogeneity, we used an unbiased proximity labeling approach to identify proteins and pathways involved in the secretion of distinct EV subpopulations. Proximity labeling, co-immunoprecipitation, and fluorescence microscopy in Nicotiana benthamiana all indicated a general role in EV secretion for EXO70 proteins (a subunit of the exocyst complex) and the immune-related protein RPM1-INTERACTING PROTEIN4 (RIN4). To confirm these hypotheses, we assessed the impact of mutations in various EXO70 family genes and in RIN4 on EV release, as well as mutations in additional genes known to regulate endomembrane trafficking and secretion. Mutation of EXO70E1, EXO70E2 or STOMATAL CYTOKINESIS DEFECTIVE1 (SCD1; a GTP-exchange factor for RabE GTPases) reduced secretion of EVs marked by TETRASPANIN8 (TET8), PENETRATION1 (PEN1), and PATELLIN1 (PATL1), indicating that these proteins are generally required for EV secretion. In contrast, mutation of RIN4 reduced levels of TET8+ and PEN1+ EVs, but not PATL + EVs. Mutation of the small GTPase gene RABA2a specifically affected PEN1+ EV secretion, while mutations in AUTOPHAGY PROTEIN5 (ATG5) and VAMP-ASSOCIATED PROTEIN27 (VAP27) specifically affected TET8+ EV secretion. Lastly, we found that exo70 family mutants are more susceptible to infection with the fungal pathogen Colletotrichum higginsianum, underlining the importance of secretion for plant immunity. Together, our results unravel some of the complex mechanisms that give rise to EV subpopulations in plants.
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