scholarly article | Q13442814 |
P50 | author | Jane Parker | Q21262779 |
Joachim Kopka | Q41841036 | ||
Changxin Liu | Q63952572 | ||
Rubén Alcázar | Q78340876 | ||
Kostadin E Atanasov | Q88792604 | ||
Alexander Erban | Q88792606 | ||
P2093 | author name string | Jane E Parker | |
Rubén Alcázar | |||
Kostadin Evgeniev Atanasov | |||
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Salicylic acid-independent ENHANCED DISEASE SUSCEPTIBILITY1 signaling in Arabidopsis immunity and cell death is regulated by the monooxygenase FMO1 and the Nudix hydrolase NUDT7 | Q24542387 | ||
Structural and Functional Analysis of a Plant Resistance Protein TIR Domain Reveals Interfaces for Self-Association, Signaling, and Autoregulation | Q27667269 | ||
Structural basis for assembly and function of a heterodimeric plant immune receptor | Q27690046 | ||
Isochorismate synthase is required to synthesize salicylic acid for plant defence | Q28209340 | ||
Hybrid necrosis: autoimmunity as a potential gene-flow barrier in plant species | Q28296228 | ||
Distribution, functional impact, and origin mechanisms of copy number variation in the barley genome | Q39403682 | ||
The Pseudomonas syringae Hrp regulation and secretion system controls the production and secretion of multiple extracellular proteins | Q39843369 | ||
A genome-wide survey of R gene polymorphisms in Arabidopsis | Q42689448 | ||
Activation of an Arabidopsis resistance protein is specified by the in planta association of its leucine-rich repeat domain with the cognate oomycete effector | Q42986713 | ||
Gain of deleterious function causes an autoimmune response and Bateson-Dobzhansky-Muller incompatibility in rice | Q43169538 | ||
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Analysis of natural allelic variation of Arabidopsis seed germination and seed longevity traits between the accessions Landsberg erecta and Shakdara, using a new recombinant inbred line population | Q44879779 | ||
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Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis. | Q45978074 | ||
Differential recognition of highly divergent downy mildew avirulence gene alleles by RPP1 resistance genes from two Arabidopsis lines | Q48008561 | ||
Rin4 causes hybrid necrosis and race-specific resistance in an interspecific lettuce hybrid | Q48067380 | ||
The downy mildew effector proteins ATR1 and ATR13 promote disease susceptibility in Arabidopsis thaliana | Q48075696 | ||
Arabidopsis SENESCENCE-ASSOCIATED GENE101 stabilizes and signals within an ENHANCED DISEASE SUSCEPTIBILITY1 complex in plant innate immunity | Q48128376 | ||
Polyamine oxidase 5 loss-of-function mutations in Arabidopsis thaliana trigger metabolic and transcriptional reprogramming and promote salt stress tolerance. | Q50730296 | ||
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Both CRISPR/Cas-based nucleases and nickases can be used efficiently for genome engineering in Arabidopsis thaliana. | Q52423023 | ||
The TIR domain of TIR-NB-LRR resistance proteins is a signaling domain involved in cell death induction. | Q53519351 | ||
Downy mildew (Peronospora parasitica) resistance genes in Arabidopsis vary in functional requirements for NDR1, EDS1, NPR1 and salicylic acid accumulation. | Q54045208 | ||
Three genes of the Arabidopsis RPP1 complex resistance locus recognize distinct Peronospora parasitica avirulence determinants. | Q54117302 | ||
Resequencing 50 accessions of cultivated and wild rice yields markers for identifying agronomically important genes | Q57087743 | ||
Quantification of starch in plant tissues | Q58036615 | ||
A mutation in Arabidopsis that leads to constitutive expression of systemic acquired resistance | Q72569227 | ||
Direct interaction between the Arabidopsis disease resistance signaling proteins, EDS1 and PAD4 | Q28360422 | ||
Multiple Domain Associations within the Arabidopsis Immune Receptor RPP1 Regulate the Activation of Programmed Cell Death | Q28552658 | ||
Widespread Genetic Incompatibilities between First-Step Mutations during Parallel Adaptation of Saccharomyces cerevisiae to a Common Environment | Q28818537 | ||
Plant immunity: towards an integrated view of plant-pathogen interactions | Q30004699 | ||
Arabidopsis thaliana DM2h (R8) within the Landsberg RPP1-like Resistance Locus Underlies Three Different Cases of EDS1-Conditioned Autoimmunity. | Q30315236 | ||
GMD@CSB.DB: the Golm Metabolome Database | Q30482803 | ||
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Natural variation at Strubbelig Receptor Kinase 3 drives immune-triggered incompatibilities between Arabidopsis thaliana accessions. | Q34147142 | ||
Structural variants in the soybean genome localize to clusters of biotic stress-response genes | Q34303645 | ||
Species-wide genetic incompatibility analysis identifies immune genes as hot spots of deleterious epistasis | Q34451674 | ||
Incipient speciation by divergent adaptation and antagonistic epistasis in yeast | Q34632967 | ||
The environment affects epistatic interactions to alter the topology of an empirical fitness landscape | Q34671988 | ||
Incremental steps toward incompatibility revealed by Arabidopsis epistatic interactions modulating salicylic acid pathway activation. | Q34910341 | ||
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EDS1, an essential component of R gene-mediated disease resistance in Arabidopsis has homology to eukaryotic lipases | Q35071942 | ||
Analysis of a plant complex resistance gene locus underlying immune-related hybrid incompatibility and its occurrence in nature | Q35517637 | ||
Recognition and activation domains contribute to allele-specific responses of an Arabidopsis NLR receptor to an oomycete effector protein | Q35559194 | ||
Structurally distinct Arabidopsis thaliana NLR immune receptors recognize tandem WY domains of an oomycete effector | Q35883534 | ||
Divergent sorting of a balanced ancestral polymorphism underlies the establishment of gene-flow barriers in Capsella | Q35964336 | ||
Seeking Goldilocks During Evolution of Drug Resistance | Q36269559 | ||
Different requirements for EDS1 and NDR1 by disease resistance genes define at least two R gene-mediated signaling pathways in Arabidopsis | Q36292957 | ||
Gateway-compatible vectors for plant functional genomics and proteomics | Q36379429 | ||
Genetics and speciation | Q36780792 | ||
Primary metabolism and plant defense--fuel for the fire | Q37434543 | ||
Hyaloperonospora Arabidopsidis as a pathogen model | Q37462890 | ||
A two-locus interaction causes interspecific hybrid weakness in rice | Q37627631 | ||
Doomed lovers: mechanisms of isolation and incompatibility in plants | Q37700581 | ||
Signals of speciation within Arabidopsis thaliana in comparison with its relatives | Q37977660 | ||
How to build a pathogen detector: structural basis of NB-LRR function. | Q38015589 | ||
Sucrose and invertases, a part of the plant defense response to the biotic stresses | Q38227166 | ||
Of guards, decoys, baits and traps: pathogen perception in plants by type III effector sensors | Q38645403 | ||
Structure-informed insights for NLR functioning in plant immunity. | Q38840703 | ||
NLR locus-mediated trade-off between abiotic and biotic stress adaptation in Arabidopsis. | Q38879492 | ||
Multiple functional self-association interfaces in plant TIR domains | Q38979907 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P1104 | number of pages | 18 | |
P304 | page(s) | 1152-1169 | |
P577 | publication date | 2018-05-23 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | NLR Mutations Suppressing Immune Hybrid Incompatibility and Their Effects on Disease Resistance | |
P478 | volume | 177 |
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