scholarly article | Q13442814 |
P50 | author | Roger Wise | Q43132826 |
Beat Keller | Q47183333 | ||
Giampiero Valè | Q56953721 | ||
P2093 | author name string | F Zhou | |
F Wei | |||
J Kurth | |||
C Elliott | |||
S Somerville | |||
P Schulze-Lefert | |||
N Yahiaoui | |||
P2860 | cites work | Date of the monocot-dicot divergence estimated from chloroplast DNA sequence data | Q24608931 |
Predicting coiled coils from protein sequences | Q27861097 | ||
Translational control in mammalian cells | Q28295830 | ||
MAPMAKER: an interactive computer package for constructing primary genetic linkage maps of experimental and natural populations | Q29616248 | ||
Structure and function of proteins controlling strain-specific pathogen resistance in plants | Q33538815 | ||
Closing the ranks to attack by powdery mildew | Q33978904 | ||
The Mla (powdery mildew) resistance cluster is associated with three NBS-LRR gene families and suppressed recombination within a 240-kb DNA interval on chromosome 5S (1HS) of barley | Q34608289 | ||
Rapid reorganization of resistance gene homologues in cereal genomes. | Q35680136 | ||
Expression of the Bs2 pepper gene confers resistance to bacterial spot disease in tomato | Q36708690 | ||
The product of the tobacco mosaic virus resistance gene N: similarity to toll and the interleukin-1 receptor | Q36723062 | ||
Local alignment statistics | Q36811813 | ||
Alternatively spliced N resistance gene transcripts: their possible role in tobacco mosaic virus resistance | Q37122727 | ||
The N gene of tobacco confers resistance to tobacco mosaic virus in transgenic tomato | Q37419018 | ||
Analysis of alternative transcripts of the flax L6 rust resistance gene | Q38326608 | ||
Initiation codons within 5'-leaders of mRNAs as regulators of translation | Q40664332 | ||
The NB-ARC domain: a novel signalling motif shared by plant resistance gene products and regulators of cell death in animals | Q42675868 | ||
A novel class of eukaryotic zinc-binding proteins is required for disease resistance signaling in barley and development in C. elegans. | Q47908497 | ||
The barley Mlo gene: a novel control element of plant pathogen resistance | Q48052711 | ||
Molecular cloning of a new receptor-like kinase gene encoded at the Lr10 disease resistance locus of wheat | Q48056110 | ||
Interaction Analyses of Genes Required for Resistance Responses to Powdery Mildew in Barley Reveal Distinct Pathways Leading to Leaf Cell Death. | Q50527206 | ||
The MLA6 coiled-coil, NBS-LRR protein confers AvrMla6-dependent resistance specificity to Blumeria graminis f. sp. hordei in barley and wheat. | Q52586112 | ||
Nar-1 and Nar-2, Two Loci Required for Mla12-Specified Race-Specific Resistance to Powdery Mildew in Barley. | Q54199616 | ||
Use of RFLP markers for the identification of alleles of the Pm3 locus conferring powdery mildew resistance in wheat (Triticum aestivum L.). | Q54231190 | ||
Assessment of the degree and the type of restriction fragment length polymorphism in barley (Hordeum vulgare). | Q54310014 | ||
Preparation of barley storage protein, hordein, for analytical sodium dodecyl sulfate-polyacrylamide gel electrophoresis | Q70993433 | ||
Germination of conidia and formation of appressoria and secondary hyphae in Erysiphe graminis f. sp. tritici | Q72764688 | ||
Effect of three suppressors on the expression of powdery mildew resistance genes in barley | Q81249139 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | barley | Q61665121 |
P304 | page(s) | 337-350 | |
P577 | publication date | 2001-02-01 | |
P1433 | published in | The Plant Cell | Q3988745 |
P1476 | title | Cell-autonomous expression of barley Mla1 confers race-specific resistance to the powdery mildew fungus via a Rar1-independent signaling pathway | |
P478 | volume | 13 |
Q90462813 | A Golgi-Released Subpopulation of the Trans-Golgi Network Mediates Protein Secretion in Arabidopsis |
Q30502450 | A genome-wide genetic map of NB-LRR disease resistance loci in potato |
Q33610640 | A golden shot: how ballistic single cell transformation boosts the molecular analysis of cereal-mildew interactions |
Q53856595 | AB-QTL analysis in spring barley. I. Detection of resistance genes against powdery mildew, leaf rust and scald introgressed from wild barley. |
Q37369276 | Allelic barley MLA immune receptors recognize sequence-unrelated avirulence effectors of the powdery mildew pathogen |
Q45739281 | Allelic series of four powdery mildew resistance genes at the Pm3 locus in hexaploid bread wheat |
Q52119394 | Arabidopsis RAR1 exerts rate-limiting control of R gene-mediated defenses against multiple pathogens. |
Q42511503 | Barley MLO modulates actin-dependent and actin-independent antifungal defense pathways at the cell periphery |
Q48249280 | Barley disease resistance gene analogs of the NBS-LRR class: identification and mapping |
Q31039686 | Biochemical evidence linking a putative callose synthase gene with (1 --> 3)-beta-D-glucan biosynthesis in barley |
Q38359061 | Blufensin1 negatively impacts basal defense in response to barley powdery mildew |
Q51196462 | Cereal immunity against powdery mildews targets RNase-Like Proteins associated with Haustoria (RALPH) effectors evolved from a common ancestral gene. |
Q36754891 | Coexpression network analysis of the genes regulated by two types of resistance responses to powdery mildew in wheat |
Q34390897 | Comparative analysis of zinc finger proteins involved in plant disease resistance |
Q36818118 | Comparative proteomics analysis reveals an intimate protein network provoked by hydrogen peroxide stress in rice seedling leaves |
Q42101464 | Conserved extracellular cysteine residues and cytoplasmic loop-loop interplay are required for functionality of the heptahelical MLO protein |
Q33204472 | Creation of BAC genomic resources for cocoa ( Theobroma cacao L.) for physical mapping of RGA containing BAC clones. |
Q34194984 | Deciphering plant–pathogen communication: fresh perspectives for molecular resistance breeding |
Q64077561 | Discovering coherency of specific gene expression and optical reflectance properties of barley genotypes differing for resistance reactions against powdery mildew |
Q26796642 | Disease Resistance Gene Analogs (RGAs) in Plants |
Q40588069 | Divergent evolution of multiple virus-resistance genes from a progenitor in Capsicum spp. |
Q35806805 | Diversity in nucleotide binding site-leucine-rich repeat genes in cereals |
Q36215444 | Dominant negative RPW8.2 fusion proteins reveal the importance of haustorium-oriented protein trafficking for resistance against powdery mildew in Arabidopsis. |
Q36587902 | Durable resistance to the wheat rusts: Integrating systems biology and traditional phenotype-based research methods to guide the deployment of resistance genes |
Q41727087 | Dynamic evolution of NBS-LRR genes in bread wheat and its progenitors |
Q35550725 | Establishment of biotrophy by parasitic fungi and reprogramming of host cells for disease resistance |
Q61816868 | Evolution of Disease Defense Genes and Their Regulators in Plants |
Q46549017 | Exploiting regulatory variation to identify genes underlying quantitative resistance to the wheat stem rust pathogen Puccinia graminis f. sp. tritici in barley |
Q90435192 | Expression of a maize NBS gene ZmNBS42 enhances disease resistance in Arabidopsis |
Q80446885 | Full-genome analysis of resistance gene homologues in rice |
Q45794901 | Genetic dissection of a TIR-NB-LRR locus from the wild North American grapevine species Muscadinia rotundifolia identifies paralogous genes conferring resistance to major fungal and oomycete pathogens in cultivated grapevine. |
Q53874553 | Genetic mapping of three alleles at the Pm3 locus conferring powdery mildew resistance in common wheat (Triticum aestivum L.). |
Q34468571 | Genetically engineered stem rust resistance in barley using the Rpg1 gene. |
Q44004565 | Genome analysis at different ploidy levels allows cloning of the powdery mildew resistance gene Pm3b from hexaploid wheat |
Q47432901 | Genome dynamics and evolution of the Mla (powdery mildew) resistance locus in barley |
Q38604823 | Genome-Wide Association Study Identifies NBS-LRR-Encoding Genes Related with Anthracnose and Common Bacterial Blight in the Common Bean |
Q36161654 | HSP90 interacts with RAR1 and SGT1 and is essential for RPS2-mediated disease resistance in Arabidopsis |
Q63198035 | High-density genetic and physical bin mapping of wheat chromosome 1D reveals that the powdery mildew resistance gene Pm24 is located in a highly recombinogenic region |
Q42501893 | Homologues of the RPW8 Resistance Protein Are Localized to the Extrahaustorial Membrane that Is Likely Synthesized De Novo. |
Q90179041 | Identification of QTLs for powdery mildew (Podosphaera aphanis; syn. Sphaerotheca macularis f. sp. fragariae) susceptibility in cultivated strawberry (Fragaria ×ananassa) |
Q51973035 | Identification of novel pathogen-responsive cis-elements and their binding proteins in the promoter of OsWRKY13, a gene regulating rice disease resistance. |
Q34580429 | In vitro antifungal activity of the tea tree (Melaleuca alternifolia) essential oil and its major components against plant pathogens. |
Q51254626 | Insights into nonhost disease resistance: can they assist disease control in agriculture? |
Q42466386 | Interaction-dependent gene expression in Mla-specified response to barley powdery mildew |
Q37766930 | Live and let live: insights into powdery mildew disease and resistance. |
Q31146452 | Map-based cloning of leaf rust resistance gene Lr21 from the large and polyploid genome of bread wheat. |
Q34394311 | Map-based isolation of the leaf rust disease resistance gene Lr10 from the hexaploid wheat (Triticum aestivum L.) genome |
Q38483310 | Mapped Ds/T-DNA launch pads for functional genomics in barley. |
Q36190120 | Marker development using SLAF-seq and whole-genome shotgun strategy to fine-map the semi-dwarf gene ari-e in barley |
Q42254819 | Mla- and Rom1-mediated control of microRNA398 and chloroplast copper/zinc superoxide dismutase regulates cell death in response to the barley powdery mildew fungus |
Q50225603 | Modulation of Plant RAB GTPase-Mediated Membrane Trafficking Pathway at the Interface Between Plants and Obligate Biotrophic Pathogens. |
Q47121238 | Molecular Mapping of PMR1, a Novel Locus Conferring Resistance to Powdery Mildew in Pepper (Capsicum annuum). |
Q37832904 | Molecular characterization and functional analysis of elite genes in wheat and its related species. |
Q35910098 | Molecular genetics of disease resistance in cereals |
Q48085385 | Multiple avirulence paralogues in cereal powdery mildew fungi may contribute to parasite fitness and defeat of plant resistance |
Q64262467 | Multiple pairs of allelic MLA immune receptor-powdery mildew AVR effectors argue for a direct recognition mechanism |
Q50517632 | Over-expression in the nucleotide-binding site-leucine rich repeat gene DEPG1 increases susceptibility to bacterial leaf streak disease in transgenic rice plants. |
Q28207107 | Plant pathogens and integrated defence responses to infection |
Q53129829 | Powdery mildew genomes in the crosshairs. 2nd International Powdery Mildew Workshop and 3rd New Phytologist Workshop, in Zürich, Switzerland, February 2012. |
Q42694804 | Powdery mildew-induced Mla mRNAs are alternatively spliced and contain multiple upstream open reading frames |
Q34288986 | Putting knowledge of plant disease resistance genes to work |
Q81381808 | QTL analysis of powdery mildew resistance in cucumber (Cucumis sativus L.). |
Q74191114 | RAR1 and NDR1 contribute quantitatively to disease resistance in Arabidopsis, and their relative contributions are dependent on the R gene assayed |
Q53879609 | RAR1 positively controls steady state levels of barley MLA resistance proteins and enables sufficient MLA6 accumulation for effective resistance. |
Q48257288 | Recognition specificity and RAR1/SGT1 dependence in barley Mla disease resistance genes to the powdery mildew fungus |
Q35037398 | Resistance and susceptibility of plants to fungal pathogens. |
Q38342894 | Resistance genes for rye stem rust (SrR) and barley powdery mildew (Mla) are located in syntenic regions on short arm of chromosome |
Q35206855 | Role of SGT1 in the regulation of plant R gene signalling |
Q40065523 | Selecting a set of wild barley introgression lines and verification of QTL effects for resistance to powdery mildew and leaf rust |
Q92180040 | Small RNA discovery in the interaction between barley and the powdery mildew pathogen |
Q43277440 | Specific targeting of the Arabidopsis resistance protein RPW8.2 to the interfacial membrane encasing the fungal Haustorium renders broad-spectrum resistance to powdery mildew |
Q73942625 | Testing the efficiency of dsRNAi constructs in vivo: a transient expression assay based on two fluorescent proteins |
Q28475475 | The CC-NB-LRR-type Rdg2a resistance gene confers immunity to the seed-borne barley leaf stripe pathogen in the absence of hypersensitive cell death |
Q52586112 | The MLA6 coiled-coil, NBS-LRR protein confers AvrMla6-dependent resistance specificity to Blumeria graminis f. sp. hordei in barley and wheat. |
Q48204468 | The Melampsora lini AvrL567 avirulence genes are expressed in haustoria and their products are recognized inside plant cells |
Q34679679 | The miR9863 family regulates distinct Mla alleles in barley to attenuate NLR receptor-triggered disease resistance and cell-death signaling |
Q37831778 | The plant cell nucleus: a true arena for the fight between plants and pathogens |
Q92259506 | Transcriptome Analysis Identifies Candidate Genes and Functional Pathways Controlling the Response of Two Contrasting Barley Varieties to Powdery Mildew Infection |
Q43472103 | Unlocking the barley genome by chromosomal and comparative genomics |
Q37202884 | Unlocking wheat genetic resources for the molecular identification of previously undescribed functional alleles at the Pm3 resistance locus |
Q52705560 | Upstream open reading frames of the barley Mla13 powdery mildew resistance gene function co-operatively to down-regulate translation. |
Q30500254 | Wheat gene bank accessions as a source of new alleles of the powdery mildew resistance gene Pm3: a large scale allele mining project |
Q52599768 | p23 and HSP20/alpha-crystallin proteins define a conserved sequence domain present in other eukaryotic protein families. |