scholarly article | Q13442814 |
P356 | DOI | 10.1111/NPH.14678 |
P698 | PubMed publication ID | 28691210 |
P50 | author | Dario Leister | Q56949773 |
Daniel Lüdke | Q88107783 | ||
Marcel Wiermer | Q47344803 | ||
P2093 | author name string | Xin Li | |
Stefan Hoth | |||
Yuelin Zhang | |||
Shuhua Yang | |||
Wanwan Liang | |||
Katja Vogelmann | |||
Tanja Kotur | |||
Tatjana Kleine | |||
Meixuezi Tong | |||
Catharina Brieske | |||
P2860 | cites work | Structural basis for assembly and function of a heterodimeric plant immune receptor | Q27690046 |
Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana | Q27860555 | ||
The ubiquitin system | Q27860803 | ||
The plant immune system | Q28131801 | ||
AAA+ proteins: have engine, will work | Q29617410 | ||
A renaissance of elicitors: perception of microbe-associated molecular patterns and danger signals by pattern-recognition receptors | Q29618149 | ||
Plant immunity: towards an integrated view of plant-pathogen interactions | Q30004699 | ||
The ubiquitin ligase PUB22 targets a subunit of the exocyst complex required for PAMP-triggered responses in Arabidopsis | Q30317952 | ||
The Arabidopsis RPS4 bacterial-resistance gene is a member of the TIR-NBS-LRR family of disease-resistance genes. | Q30323766 | ||
A fast neutron deletion mutagenesis-based reverse genetics system for plants. | Q30706807 | ||
A large complement of the predicted Arabidopsis ARM repeat proteins are members of the U-box E3 ubiquitin ligase family | Q30885522 | ||
RRS1 and RPS4 provide a dual Resistance-gene system against fungal and bacterial pathogens | Q33466505 | ||
Phytophthora infestans effector AVR3a is essential for virulence and manipulates plant immunity by stabilizing host E3 ligase CMPG1. | Q34006450 | ||
Initiation of RPS2-specified disease resistance in Arabidopsis is coupled to the AvrRpt2-directed elimination of RIN4. | Q34176705 | ||
Molecular mechanism of RNA silencing suppression mediated by p19 protein of tombusviruses | Q34300132 | ||
The NB-LRR proteins RGA4 and RGA5 interact functionally and physically to confer disease resistance | Q34332503 | ||
A multicolored set of in vivo organelle markers for co-localization studies in Arabidopsis and other plants. | Q50671576 | ||
A receptor pair with an integrated decoy converts pathogen disabling of transcription factors to immunity. | Q50973954 | ||
Arabidopsis RIN4 is a target of the type III virulence effector AvrRpt2 and modulates RPS2-mediated resistance. | Q52549320 | ||
Heterotrimeric G proteins serve as a converging point in plant defense signaling activated by multiple receptor-like kinases. | Q54448607 | ||
MEKK1, MKK1/MKK2 and MPK4 function together in a mitogen-activated protein kinase cascade to regulate innate immunity in plants. | Q54790962 | ||
Identification of proteins that interact with a protein of interest: applications of the yeast two-hybrid system | Q34437389 | ||
Arabidopsis map-based cloning in the post-genome era | Q34688896 | ||
Physical interaction between RRS1-R, a protein conferring resistance to bacterial wilt, and PopP2, a type III effector targeted to the plant nucleus | Q35147632 | ||
Stability of plant immune-receptor resistance proteins is controlled by SKP1-CULLIN1-F-box (SCF)-mediated protein degradation | Q35197989 | ||
Mutations in an Atypical TIR-NB-LRR-LIM Resistance Protein Confer Autoimmunity | Q35970347 | ||
Rapid, combinatorial analysis of membrane compartments in intact plants with a multicolor marker set. | Q36861732 | ||
Recombinational cloning with plant gateway vectors | Q37023313 | ||
The diversity of plant U-box E3 ubiquitin ligases: from upstream activators to downstream target substrates | Q37386477 | ||
The ubiquitin-26S proteasome system at the nexus of plant biology | Q37474364 | ||
Plasma membrane-association of SAUL1-type plant U-box armadillo repeat proteins is conserved in land plants | Q37592102 | ||
Ubiquitination in NB-LRR-mediated immunity | Q38002651 | ||
Plant pattern recognition receptor complexes at the plasma membrane. | Q38019246 | ||
A rolling stone gathers no moss, but resistant plants must gather their moses | Q38083492 | ||
NLRs in plants | Q38350335 | ||
Evidence for network evolution in an Arabidopsis interactome map. | Q38367823 | ||
Conventional and unconventional ubiquitination in plant immunity. | Q39031354 | ||
Interaction between domains of a plant NBS-LRR protein in disease resistance-related cell death. | Q39647973 | ||
Direct ubiquitination of pattern recognition receptor FLS2 attenuates plant innate immunity. | Q39945752 | ||
Phosphorylation of the Plant Immune Regulator RPM1-INTERACTING PROTEIN4 Enhances Plant Plasma Membrane H⁺-ATPase Activity and Inhibits Flagellin-Triggered Immune Responses in Arabidopsis | Q40711562 | ||
A Plant Immune Receptor Detects Pathogen Effectors that Target WRKY Transcription Factors | Q40912062 | ||
An Arabidopsis Plasma Membrane Proton ATPase Modulates JA Signaling and Is Exploited by the Pseudomonas syringae Effector Protein AvrB for Stomatal Invasion. | Q41097307 | ||
C-terminal armadillo repeats are essential and sufficient for association of the plant U-box armadillo E3 ubiquitin ligase SAUL1 with the plasma membrane | Q41209423 | ||
Autoimmunity conferred by chs3-2D relies on CSA1, its adjacent TNL-encoding neighbour | Q41294773 | ||
A lectin S-domain receptor kinase mediates lipopolysaccharide sensing in Arabidopsis thaliana. | Q41456359 | ||
NLR-associating transcription factor bHLH84 and its paralogs function redundantly in plant immunity | Q41990195 | ||
Arabidopsis MAP kinase 4 regulates gene expression through transcription factor release in the nucleus | Q42405759 | ||
A putative nucleoporin 96 Is required for both basal defense and constitutive resistance responses mediated by suppressor of npr1-1,constitutive 1. | Q42475663 | ||
Specific threonine phosphorylation of a host target by two unrelated type III effectors activates a host innate immune receptor in plants | Q42483983 | ||
Disruption of PAMP-induced MAP kinase cascade by a Pseudomonas syringae effector activates plant immunity mediated by the NB-LRR protein SUMM2. | Q42503532 | ||
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 | ||
Mutations in the NB-ARC domain of I-2 that impair ATP hydrolysis cause autoactivation. | Q42680832 | ||
A receptor-like cytoplasmic kinase phosphorylates the host target RIN4, leading to the activation of a plant innate immune receptor | Q42710152 | ||
Activation of an EDS1-mediated R-gene pathway in the snc1 mutant leads to constitutive, NPR1-independent pathogen resistance | Q43769845 | ||
Structure-function analysis of the NB-ARC domain of plant disease resistance proteins. | Q43838589 | ||
Arabidopsis RPP4 is a member of the RPP5 multigene family of TIR-NB-LRR genes and confers downy mildew resistance through multiple signalling components | Q43887865 | ||
The TOPLESS interactome: a framework for gene repression in Arabidopsis | Q44669256 | ||
An autoactive mutant of the M flax rust resistance protein has a preference for binding ATP, whereas wild-type M protein binds ADP. | Q45302581 | ||
To nibble at plant resistance proteins. | Q46021139 | ||
Identification of a novel E3 ubiquitin ligase that is required for suppression of premature senescence in Arabidopsis. | Q46077224 | ||
Membrane-Associated Ubiquitin Ligase SAUL1 Suppresses Temperature- and Humidity-Dependent Autoimmunity in Arabidopsis | Q50207983 | ||
Temperature-dependent autoimmunity mediated by chs1 requires its neighboring TNL gene SOC3. | Q50283758 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1516-1532 | |
P577 | publication date | 2017-07-10 | |
P1433 | published in | New Phytologist | Q13548580 |
P1476 | title | E3 ligase SAUL1 serves as a positive regulator of PAMP-triggered immunity and its homeostasis is monitored by immune receptor SOC3 | |
P478 | volume | 215 |
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