| scholarly article | Q13442814 |
| P356 | DOI | 10.1111/JIPB.12426 |
| P698 | PubMed publication ID | 26345282 |
| P50 | author | Wenming Wang | Q43277465 |
| P2093 | author name string | Shunyuan Xiao | |
| Yong-Ju Xu | |||
| Peng-Qiang Liu | |||
| P2860 | cites work | Transport between the cell nucleus and the cytoplasm | Q22065411 |
| Qa-SNAREs localized to the trans-Golgi network regulate multiple transport pathways and extracellular disease resistance in plants | Q24633544 | ||
| ENHANCED DISEASE RESISTANCE4 associates with CLATHRIN HEAVY CHAIN2 and modulates plant immunity by regulating relocation of EDR1 in Arabidopsis | Q27319455 | ||
| The plant immune system | Q28131801 | ||
| A receptor kinase-like protein encoded by the rice disease resistance gene, Xa21 | Q28270671 | ||
| A novel role for the TIR domain in association with pathogen-derived elicitors | Q28469160 | ||
| Plant pattern-recognition receptor FLS2 is directed for degradation by the bacterial ubiquitin ligase AvrPtoB | Q28492434 | ||
| A bacterial virulence protein suppresses host innate immunity to cause plant disease | Q28492437 | ||
| The plasmodesmal protein PDLP1 localises to haustoria-associated membranes during downy mildew infection and regulates callose deposition | Q28544945 | ||
| Structural biology of nucleocytoplasmic transport | Q29615350 | ||
| Host-microbe interactions: shaping the evolution of the plant immune response | Q29617734 | ||
| A renaissance of elicitors: perception of microbe-associated molecular patterns and danger signals by pattern-recognition receptors | Q29618149 | ||
| The SR protein family of splicing factors: master regulators of gene expression | Q29619935 | ||
| Plant immunity: towards an integrated view of plant-pathogen interactions | Q30004699 | ||
| Activation of defense against Phytophthora infestans in potato by down-regulation of syntaxin gene expression | Q30318215 | ||
| Broad-spectrum mildew resistance in Arabidopsis thaliana mediated by RPW8. | Q31805375 | ||
| Electron tomography of RabA4b- and PI-4Kβ1-labeled trans Golgi network compartments in Arabidopsis. | Q33350214 | ||
| The Arabidopsis Rho of plants GTPase AtROP6 functions in developmental and pathogen response pathways. | Q33355059 | ||
| RRS1 and RPS4 provide a dual Resistance-gene system against fungal and bacterial pathogens | Q33466505 | ||
| The coiled-coil domain of EHD2 mediates inhibition of LeEix2 endocytosis and signaling | Q33516568 | ||
| Endocytic and secretory traffic in Arabidopsis merge in the trans-Golgi network/early endosome, an independent and highly dynamic organelle | Q33570063 | ||
| Balanced nuclear and cytoplasmic activities of EDS1 are required for a complete plant innate immune response | Q33628736 | ||
| Recruitment and interaction dynamics of plant penetration resistance components in a plasma membrane microdomain. | Q33865168 | ||
| Transportin-SR is required for proper splicing of resistance genes and plant immunity | Q33954494 | ||
| Resistance to Ralstonia solanacearum in Arabidopsis thaliana is conferred by the recessive RRS1-R gene, a member of a novel family of resistance genes | Q34013448 | ||
| Arabidopsis resistance protein SNC1 activates immune responses through association with a transcriptional corepressor | Q34068596 | ||
| Wheat TaNPSN SNARE homologues are involved in vesicle-mediated resistance to stripe rust (Puccinia striiformis f. sp. tritici). | Q34089300 | ||
| Inducers of plant systemic acquired resistance regulate NPR1 function through redox changes | Q34210476 | ||
| Arabidopsis EDS1 connects pathogen effector recognition to cell compartment-specific immune responses | Q34239897 | ||
| SNARE-protein-mediated disease resistance at the plant cell wall. | Q34273390 | ||
| RanGAP2 mediates nucleocytoplasmic partitioning of the NB-LRR immune receptor Rx in the Solanaceae, thereby dictating Rx function | Q42776038 | ||
| Recycling of Arabidopsis plasma membrane PEN1 syntaxin | Q42966773 | ||
| Analysis of the Rac/Rop small GTPase family in rice: expression, subcellular localization and role in disease resistance | Q43142644 | ||
| Specific targeting of the Arabidopsis resistance protein RPW8.2 to the interfacial membrane encasing the fungal Haustorium renders broad-spectrum resistance to powdery mildew | Q43277440 | ||
| Nuclear localization of NPR1 is required for regulation of salicylate tolerance, isochorismate synthase 1 expression and salicylate accumulation in Arabidopsis | Q43283799 | ||
| Elevated early callose deposition results in complete penetration resistance to powdery mildew in Arabidopsis | Q43440476 | ||
| Interaction of the Arabidopsis GTPase RabA4c with its effector PMR4 results in complete penetration resistance to powdery mildew | Q43814404 | ||
| Medicago truncatula syntaxin SYP132 defines the symbiosome membrane and infection droplet membrane in root nodules | Q44233843 | ||
| NPR1 modulates cross-talk between salicylate- and jasmonate-dependent defense pathways through a novel function in the cytosol | Q44342745 | ||
| A barley ROP GTPase ACTIVATING PROTEIN associates with microtubules and regulates entry of the barley powdery mildew fungus into leaf epidermal cells. | Q44448823 | ||
| Loss of a callose synthase results in salicylic acid-dependent disease resistance | Q44550706 | ||
| The receptor-like MLO protein and the RAC/ROP family G-protein RACB modulate actin reorganization in barley attacked by the biotrophic powdery mildew fungus Blumeria graminis f.sp. hordei | Q44662951 | ||
| Physical association of the NB-LRR resistance protein Rx with a Ran GTPase-activating protein is required for extreme resistance to Potato virus X. | Q44809238 | ||
| The receptor for the fungal elicitor ethylene-inducing xylanase is a member of a resistance-like gene family in tomato | Q44904965 | ||
| The Rab GTPase RabG3b positively regulates autophagy and immunity-associated hypersensitive cell death in Arabidopsis | Q45003600 | ||
| Durable panicle blast-resistance gene Pb1 encodes an atypical CC-NBS-LRR protein and was generated by acquiring a promoter through local genome duplication | Q45043338 | ||
| Rice Rab11 is required for JA-mediated defense signaling | Q45788943 | ||
| An OsCEBiP/OsCERK1-OsRacGEF1-OsRac1 module is an essential early component of chitin-induced rice immunity | Q45816270 | ||
| Molecular basis for the RIN4 negative regulation of RPS2 disease resistance | Q46086553 | ||
| Subcellular localization and functional analysis of the Arabidopsis GTPase RabE. | Q46113948 | ||
| Co-option of a default secretory pathway for plant immune responses | Q46755257 | ||
| Interaction of a Blumeria graminis f. sp. hordei effector candidate with a barley ARF-GAP suggests that host vesicle trafficking is a fungal pathogenicity target | Q48033971 | ||
| Arabidopsis SENESCENCE-ASSOCIATED GENE101 stabilizes and signals within an ENHANCED DISEASE SUSCEPTIBILITY1 complex in plant innate immunity | Q48128376 | ||
| An importin alpha homolog, MOS6, plays an important role in plant innate immunity | Q48133516 | ||
| Spotted leaf11, a negative regulator of plant cell death and defense, encodes a U-box/armadillo repeat protein endowed with E3 ubiquitin ligase activity | Q48172461 | ||
| BEX5/RabA1b regulates trans-Golgi network-to-plasma membrane protein trafficking in Arabidopsis. | Q49159990 | ||
| RABA members act in distinct steps of subcellular trafficking of the FLAGELLIN SENSING2 receptor. | Q50482466 | ||
| BAK1 is required for the attenuation of ethylene-inducing xylanase (Eix)-induced defense responses by the decoy receptor LeEix1. | Q50549682 | ||
| Recruitment of PLANT U-BOX13 and the PI4Kβ1/β2 phosphatidylinositol-4 kinases by the small GTPase RabA4B plays important roles during salicylic acid-mediated plant defense signaling in Arabidopsis. | Q50603942 | ||
| Host cell entry of powdery mildew is correlated with endosomal transport of antagonistically acting VvPEN1 and VvMLO to the papilla. | Q50863251 | ||
| Nucleocytoplasmic partitioning of tobacco N receptor is modulated by SGT1. | Q50941903 | ||
| A receptor pair with an integrated decoy converts pathogen disabling of transcription factors to immunity. | Q50973954 | ||
| Endosomal trafficking and signaling in plant defense responses. | Q51404362 | ||
| Endosomal signaling of the tomato leucine-rich repeat receptor-like protein LeEix2. | Q51593754 | ||
| Plasma membrane localization and potential endocytosis of constitutively expressed XA21 proteins in transgenic rice. | Q51626295 | ||
| Nucleocytoplasmic distribution is required for activation of resistance by the potato NB-LRR receptor Rx1 and is balanced by its functional domains. | Q52606191 | ||
| Rerouting of plant late endocytic trafficking toward a pathogen interface. | Q53249405 | ||
| An evolutionarily conserved mediator of plant disease resistance gene function is required for normal Arabidopsis development. | Q53968211 | ||
| NPR1 differentially interacts with members of the TGA/OBF family of transcription factors that bind an element of the PR-1 gene required for induction by salicylic acid. | Q54063737 | ||
| Phosphorylation of an ERF transcription factor by Arabidopsis MPK3/MPK6 regulates plant defense gene induction and fungal resistance. | Q54442054 | ||
| The coiled-coil and nucleotide binding domains of the Potato Rx disease resistance protein function in pathogen recognition and signaling. | Q54541984 | ||
| Phosphorylation of a WRKY transcription factor by two pathogen-responsive MAPKs drives phytoalexin biosynthesis in Arabidopsis. | Q54596169 | ||
| Secretory pathways in plant immune responses | Q59213714 | ||
| Structure-function analysis of barley NLR immune receptor MLA10 reveals its cell compartment specific activity in cell death and disease resistance. | Q34299409 | ||
| Ligand-induced endocytosis of the pattern recognition receptor FLS2 in Arabidopsis | Q34471127 | ||
| Chloroplastic protein NRIP1 mediates innate immune receptor recognition of a viral effector. | Q34588234 | ||
| Protein secretion: how many secretory routes does a plant cell have? | Q34588868 | ||
| Novel positive regulatory role for the SPL6 transcription factor in the N TIR-NB-LRR receptor-mediated plant innate immunity. | Q34629181 | ||
| A flagellin-induced complex of the receptor FLS2 and BAK1 initiates plant defence | Q34649229 | ||
| Loss of Arabidopsis thaliana Dynamin-Related Protein 2B reveals separation of innate immune signaling pathways | Q34734288 | ||
| Plasma membrane protein trafficking in plant-microbe interactions: a plant cell point of view | Q34755307 | ||
| Plant intracellular innate immune receptor Resistance to Pseudomonas syringae pv. maculicola 1 (RPM1) is activated at, and functions on, the plasma membrane | Q34937369 | ||
| The Arabidopsis Rab GTPase family: another enigma variation | Q34977155 | ||
| Arabidopsis Argonaute 2 regulates innate immunity via miRNA393(∗)-mediated silencing of a Golgi-localized SNARE gene, MEMB12 | Q35004294 | ||
| ESCRT-I mediates FLS2 endosomal sorting and plant immunity | Q35079884 | ||
| Effector-triggered immunity blocks pathogen degradation of an immunity-associated vesicle traffic regulator in Arabidopsis | Q35081426 | ||
| Physical interaction between RRS1-R, a protein conferring resistance to bacterial wilt, and PopP2, a type III effector targeted to the plant nucleus | Q35147632 | ||
| EDR1 physically interacts with MKK4/MKK5 and negatively regulates a MAP kinase cascade to modulate plant innate immunity | Q35169007 | ||
| The RhoGAP SPIN6 associates with SPL11 and OsRac1 and negatively regulates programmed cell death and innate immunity in rice. | Q35556746 | ||
| The syntaxin SYP132 contributes to plant resistance against bacteria and secretion of pathogenesis-related protein 1. | Q35880210 | ||
| Rhizobium-legume symbiosis shares an exocytotic pathway required for arbuscule formation | Q35991408 | ||
| Arabidopsis ARF-GTP exchange factor, GNOM, mediates transport required for innate immunity and focal accumulation of syntaxin PEN1. | Q36094137 | ||
| The conformational and subcellular compartmental dance of plant NLRs during viral recognition and defense signaling | Q36131244 | ||
| Plant immunity: the EDS1 regulatory node. | Q36154046 | ||
| Different requirements for EDS1 and NDR1 by disease resistance genes define at least two R gene-mediated signaling pathways in Arabidopsis | Q36292957 | ||
| Spatial control of plasma membrane domains: ROP GTPase-based symmetry breaking | Q36534193 | ||
| Control of transcription by Pontin and Reptin | Q36744369 | ||
| Should I stay or should I go? Nucleocytoplasmic trafficking in plant innate immunity | Q36824241 | ||
| Salicylic acid interferes with clathrin-mediated endocytic protein trafficking | Q36835459 | ||
| Blast resistance of CC-NB-LRR protein Pb1 is mediated by WRKY45 through protein-protein interaction. | Q36915615 | ||
| Plant NB-LRR immune receptors: from recognition to transcriptional reprogramming | Q37105837 | ||
| Interaction of NPR1 with basic leucine zipper protein transcription factors that bind sequences required for salicylic acid induction of the PR-1 gene | Q37214614 | ||
| Partitioning, repressing and derepressing: dynamic regulations in MLA immune receptor triggered defense signaling | Q37219793 | ||
| SNAREs: cogs and coordinators in signaling and development | Q37234785 | ||
| The regulatory RAB and ARF GTPases for vesicular trafficking | Q37234790 | ||
| The role of WRKY transcription factors in plant immunity | Q37472672 | ||
| Trafficking vesicles: pro or contra pathogens? | Q37553530 | ||
| The PEN1 syntaxin defines a novel cellular compartment upon fungal attack and is required for the timely assembly of papillae | Q37595500 | ||
| Nuclear trafficking during plant innate immunity | Q37613954 | ||
| Not a peripheral issue: secretion in plant-microbe interactions | Q37765998 | ||
| Clathrin-mediated endocytosis: the gateway into plant cells | Q37938263 | ||
| Functional architecture of the nuclear pore complex | Q38009349 | ||
| The INs and OUTs of pattern recognition receptors at the cell surface. | Q38015996 | ||
| Nuclear pore complex composition: a new regulator of tissue-specific and developmental functions | Q38054510 | ||
| Plant TGNs: dynamics and physiological functions | Q38119864 | ||
| Early signaling network in rice PRR-mediated and R-mediated immunity | Q38127486 | ||
| Membrane trafficking pathways and their roles in plant-microbe interactions. | Q38195007 | ||
| Plant vacuolar trafficking driven by RAB and SNARE proteins | Q38280486 | ||
| Constitutively activated barley ROPs modulate epidermal cell size, defense reactions and interactions with fungal leaf pathogens. | Q38287473 | ||
| A RanGAP protein physically interacts with the NB-LRR protein Rx, and is required for Rx-mediated viral resistance. | Q38299710 | ||
| Nuclear localization of NPR1 is required for activation of PR gene expression | Q38305158 | ||
| The Arabidopsis NPR1/NIM1 protein enhances the DNA binding activity of a subgroup of the TGA family of bZIP transcription factors | Q38315695 | ||
| A moving view: subcellular trafficking processes in pattern recognition receptor-triggered plant immunity. | Q38561049 | ||
| A nuclear localization for Avr2 from Fusarium oxysporum is required to activate the tomato resistance protein I-2. | Q39755622 | ||
| Direct ubiquitination of pattern recognition receptor FLS2 attenuates plant innate immunity. | Q39945752 | ||
| A Plant Immune Receptor Detects Pathogen Effectors that Target WRKY Transcription Factors | Q40912062 | ||
| Modulation of RNA polymerase II phosphorylation downstream of pathogen perception orchestrates plant immunity | Q41965939 | ||
| NLR-associating transcription factor bHLH84 and its paralogs function redundantly in plant immunity | Q41990195 | ||
| Light-dependent hypersensitive response and resistance signaling against Turnip Crinkle Virus in Arabidopsis | Q42164598 | ||
| Barley MLA immune receptors directly interfere with antagonistically acting transcription factors to initiate disease resistance signaling. | Q42436298 | ||
| Nuclear pore complex component MOS7/Nup88 is required for innate immunity and nuclear accumulation of defense regulators in Arabidopsis | Q42458868 | ||
| A putative nucleoporin 96 Is required for both basal defense and constitutive resistance responses mediated by suppressor of npr1-1,constitutive 1. | Q42475663 | ||
| The atypical resistance gene, RPW8, recruits components of basal defence for powdery mildew resistance in Arabidopsis | Q42475703 | ||
| The multivesicular body-localized GTPase ARFA1b/1c is important for callose deposition and ROR2 syntaxin-dependent preinvasive basal defense in barley | Q42479562 | ||
| Cell death mediated by the N-terminal domains of a unique and highly conserved class of NB-LRR protein. | Q42486906 | ||
| Pathogen effectors target Arabidopsis EDS1 and alter its interactions with immune regulators. | Q42498772 | ||
| Putative members of the Arabidopsis Nup107-160 nuclear pore sub-complex contribute to pathogen defense. | Q42501318 | ||
| Barley ROP binding kinase1 is involved in microtubule organization and in basal penetration resistance to the barley powdery mildew fungus. | Q42503370 | ||
| Nuclear activity of MLA immune receptors links isolate-specific and basal disease-resistance responses. | Q42505990 | ||
| Nuclear accumulation of the Arabidopsis immune receptor RPS4 is necessary for triggering EDS1-dependent defense | Q42521377 | ||
| A gain-of-function mutation in a plant disease resistance gene leads to constitutive activation of downstream signal transduction pathways in suppressor of npr1-1, constitutive 1. | Q42611654 | ||
| P433 | issue | 4 | |
| P304 | page(s) | 284-298 | |
| P577 | publication date | 2015-09-08 | |
| P1433 | published in | Journal of Integrative Plant Biology | Q15760521 |
| P1476 | title | Protein trafficking during plant innate immunity | |
| P478 | volume | 58 |
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