| scholarly article | Q13442814 |
| P50 | author | Frank Takken | Q74593248 |
| P2093 | author name string | Michel A Haring | |
| Jack H Vossen | |||
| Ben J C Cornelissen | |||
| Wladimir I L Tameling | |||
| Patricia S Darmin | |||
| Sandra D J Elzinga | |||
| P2860 | cites work | Cytochrome c promotes caspase-9 activation by inducing nucleotide binding to Apaf-1 | Q74162404 |
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| Apaf-1, a human protein homologous to C. elegans CED-4, participates in cytochrome c-dependent activation of caspase-3 | Q24324482 | ||
| Distantly related sequences in the alpha- and beta-subunits of ATP synthase, myosin, kinases and other ATP-requiring enzymes and a common nucleotide binding fold | Q24556499 | ||
| A general method of in vitro preparation and specific mutagenesis of DNA fragments: study of protein and DNA interactions | Q24597783 | ||
| Structure-function analysis of the tobacco mosaic virus resistance gene N | Q24683725 | ||
| A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding | Q25938984 | ||
| Eukaryotic proteins expressed in Escherichia coli: An improved thrombin cleavage and purification procedure of fusion proteins with glutathione S-transferase | Q28131695 | ||
| The P-loop--a common motif in ATP- and GTP-binding proteins | Q28131730 | ||
| Cytochrome c and dATP-mediated oligomerization of Apaf-1 is a prerequisite for procaspase-9 activation | Q28199391 | ||
| Plant pathogens and integrated defence responses to infection | Q28207107 | ||
| WD-40 repeat region regulates Apaf-1 self-association and procaspase-9 activation | Q28290389 | ||
| The GTPase superfamily: a conserved switch for diverse cell functions | Q28302983 | ||
| The domains of death: evolution of the apoptosis machinery | Q30658082 | ||
| Sentinels of disease. Plant resistance genes | Q34462846 | ||
| The nematode resistance gene Mi of tomato confers resistance against the potato aphid | Q36275586 | ||
| The root knot nematode resistance gene Mi from tomato is a member of the leucine zipper, nucleotide binding, leucine-rich repeat family of plant genes | Q38334371 | ||
| Site-directed mutational analysis for the ATP binding of DnaA protein. Functions of two conserved amino acids (Lys-178 and Asp-235) located in the ATP-binding domain of DnaA protein in vitro and in vivo. | Q38334670 | ||
| Dissection of the fusarium I2 gene cluster in tomato reveals six homologs and one active gene copy | Q38336339 | ||
| MgATP binding and hydrolysis determinants of NtrC, a bacterial enhancer-binding protein | Q39547445 | ||
| Interaction between domains of a plant NBS-LRR protein in disease resistance-related cell death. | Q39647973 | ||
| Subcellular localization, oligomerization, and ATP-binding of Caenorhabditis elegans CED-4. | Q40758739 | ||
| The functions and consensus motifs of nine types of peptide segments that form different types of nucleotide-binding sites | Q40761066 | ||
| Role of cytochrome c and dATP/ATP hydrolysis in Apaf-1-mediated caspase-9 activation and apoptosis | Q40944401 | ||
| The Ras superfamily of GTPases. | Q40982002 | ||
| Essential role of CED-4 oligomerization in CED-3 activation and apoptosis | Q41012444 | ||
| Isolation of a biologically active soluble human interferon-alpha receptor-GST fusion protein expressed in Escherichia coli | Q41161428 | ||
| Plant disease resistance genes encode members of an ancient and diverse protein family within the nucleotide-binding superfamily | Q41703915 | ||
| Mutational analysis of the Arabidopsis nucleotide binding site-leucine-rich repeat resistance gene RPS2. | Q42498197 | ||
| The NB-ARC domain: a novel signalling motif shared by plant resistance gene products and regulators of cell death in animals | Q42675868 | ||
| The tomato Mi-1 gene confers resistance to both root-knot nematodes and potato aphids | Q42688169 | ||
| Large-scale structure-function analysis of the Arabidopsis RPM1 disease resistance protein | Q43909614 | ||
| Role of CED-4 in the activation of CED-3. | Q47068811 | ||
| TrwD, a protein encoded by the IncW plasmid R388, displays an ATP hydrolase activity essential for bacterial conjugation | Q48043739 | ||
| Divergent evolution of plant NBS-LRR resistance gene homologues in dicot and cereal genomes | Q48385319 | ||
| Steady-state binding of [ 3 H]ATP to rat liver plasma membranes and competition by various purinergic agonists and antagonists | Q61970341 | ||
| ATPase activity and ATP/ADP-induced conformational change in the soluble domain of the bacterial protein translocator HlyB | Q72903204 | ||
| Expression of the Fusarium resistance gene I-2 colocalizes with the site of fungal containment | Q74122065 | ||
| P433 | issue | 11 | |
| P304 | page(s) | 2929-2939 | |
| P577 | publication date | 2002-11-01 | |
| P1433 | published in | The Plant Cell | Q3988745 |
| P1476 | title | The tomato R gene products I-2 and MI-1 are functional ATP binding proteins with ATPase activity | |
| P478 | volume | 14 |
| Q42941279 | A gain-of-function mutation in the Arabidopsis disease resistance gene RPP4 confers sensitivity to low temperature |
| Q38351295 | A large scale analysis of resistance gene homologues in Arachis |
| Q40563808 | A multilayered regulatory mechanism for the autoinhibition and activation of a plant CC-NB-LRR resistance protein with an extra N-terminal domain. |
| Q46423961 | A new CARD15 mutation in Blau syndrome |
| Q36351436 | A new eye on NLR proteins: focused on clarity or diffused by complexity? |
| Q91496820 | A new source of root-knot nematode resistance from Arachis stenosperma incorporated into allotetraploid peanut (Arachis hypogaea) |
| Q39755622 | A nuclear localization for Avr2 from Fusarium oxysporum is required to activate the tomato resistance protein I-2. |
| Q34096384 | A nucleotide phosphatase activity in the nucleotide binding domain of an orphan resistance protein from rice |
| Q24658100 | ATP binding by monarch-1/NLRP12 is critical for its inhibitory function |
| Q52674830 | Acid-resistant genes of oral plaque microbiome from the functional metagenomics. |
| Q36020416 | Activation of a plant nucleotide binding-leucine rich repeat disease resistance protein by a modified self protein |
| Q42986713 | Activation of an Arabidopsis resistance protein is specified by the in planta association of its leucine-rich repeat domain with the cognate oomycete effector |
| Q56927684 | An Update on Genetic Modification of Chickpea for Increased Yield and Stress Tolerance |
| Q31098273 | Analysis of TIR- and non-TIR-NBS-LRR disease resistance gene analogous in pepper: characterization, genetic variation, functional divergence and expression patterns |
| Q33317418 | Analysis of non-TIR NBS-LRR resistance gene analogs in Musa acuminata Colla: isolation, RFLP marker development, and physical mapping |
| Q38937537 | Animal NLRs provide structural insights into plant NLR function |
| Q35214812 | Artificial evolution extends the spectrum of viruses that are targeted by a disease-resistance gene from potato |
| Q33563515 | Assessing ATP binding and hydrolysis by NLR proteins |
| Q36915615 | Blast resistance of CC-NB-LRR protein Pb1 is mediated by WRKY45 through protein-protein interaction. |
| Q79799310 | CaMi, a root-knot nematode resistance gene from hot pepper (Capsium annuum L.) confers nematode resistance in tomato |
| Q40130317 | Comparative Analysis of the Flax Immune Receptors L6 and L7 Suggests an Equilibrium-Based Switch Activation Model |
| Q44799027 | Comparative analysis of NBS domain sequences of NBS-LRR disease resistance genes from sunflower, lettuce, and chicory |
| Q37318356 | Comparative analysis of the 100 kb region containing the Pi-k(h) locus between indica and japonica rice lines |
| Q35808888 | Cryopyrin/NALP3 binds ATP/dATP, is an ATPase, and requires ATP binding to mediate inflammatory signaling |
| Q34194984 | Deciphering plant–pathogen communication: fresh perspectives for molecular resistance breeding |
| Q45415509 | Direct interaction between the tobacco mosaic virus helicase domain and the ATP-bound resistance protein, N factor during the hypersensitive response in tobacco plants |
| Q34695537 | Direct protein interaction underlies gene-for-gene specificity and coevolution of the flax resistance genes and flax rust avirulence genes |
| Q26796642 | Disease Resistance Gene Analogs (RGAs) in Plants |
| Q90299351 | Dissection of Cell Death Induction by Wheat Stem Rust Resistance Protein Sr35 and Its Matching Effector AvrSr35 |
| Q48086025 | Distinct domains in the ARC region of the potato resistance protein Rx mediate LRR binding and inhibition of activation |
| Q40588069 | Divergent evolution of multiple virus-resistance genes from a progenitor in Capsicum spp. |
| Q86985981 | Diversity and evolution of Rp1 rust resistance genes in four maize lines |
| Q45043338 | Durable panicle blast-resistance gene Pb1 encodes an atypical CC-NBS-LRR protein and was generated by acquiring a promoter through local genome duplication |
| Q35182128 | Early signal transduction events in specific plant disease resistance. |
| Q46875249 | Elicitor-mediated oligomerization of the tobacco N disease resistance protein |
| Q52599391 | Endosome-associated CRT1 functions early in resistance gene-mediated defense signaling in Arabidopsis and tobacco. |
| Q40104145 | Engineering an auto-activated R protein that is in vivo activated by a viral protease. |
| Q47992680 | Evolutionary relationship of disease resistance genes in soybean and Arabidopsis specific for the Pseudomonas syringae effectors AvrB and AvrRpm1. |
| Q35239735 | Expanded functions for a family of plant intracellular immune receptors beyond specific recognition of pathogen effectors |
| Q48786594 | Expression of Plant Receptor Kinases in E. coli |
| Q36385761 | Formation and structure of a NAIP5-NLRC4 inflammasome induced by direct interactions with conserved N- and C-terminal regions of flagellin. |
| Q35181303 | Function and interaction of the coupled genes responsible for Pik-h encoded rice blast resistance. |
| Q39075805 | Function of a novel GDSL-type pepper lipase gene, CaGLIP1, in disease susceptibility and abiotic stress tolerance |
| Q46754127 | Functional markers based molecular characterization and cloning of resistance gene analogs encoding NBS-LRR disease resistance proteins in finger millet (Eleusine coracana). |
| Q33683689 | Gene expression profiling describes the genetic regulation of Meloidogyne arenaria resistance in Arachis hypogaea and reveals a candidate gene for resistance |
| Q34697970 | Genetic requirements for signaling from an autoactive plant NB-LRR intracellular innate immune receptor |
| Q36331317 | Genome Analysis Identified Novel Candidate Genes for Ascochyta Blight Resistance in Chickpea Using Whole Genome Re-sequencing Data |
| Q42613998 | Genome-wide analysis of Carica papaya reveals a small NBS resistance gene family |
| Q45978074 | Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis. |
| Q33555873 | Genome-wide comparative analysis of NBS-encoding genes in four Gossypium species |
| Q38841259 | Genome-wide identification and characterization of NB-ARC resistant genes in wheat (Triticum aestivum L.) and their expression during leaf rust infection |
| Q44720806 | Genome-wide identification and characterization of nucleotide binding site leucine-rich repeat genes in linseed reveal distinct patterns of gene structure. |
| Q34228511 | Genome-wide identification and mapping of NBS-encoding resistance genes in Solanum tuberosum group phureja |
| Q38608896 | Genome-wide identification and tissue-specific expression analysis of nucleotide binding site-leucine rich repeat gene family in Cicer arietinum (kabuli chickpea). |
| Q33303636 | Global expression analysis of nucleotide binding site-leucine rich repeat-encoding and related genes in Arabidopsis |
| Q35811700 | Guarding the goods. New insights into the central alarm system of plants |
| Q50280804 | Heterologous Expression of the Cotton NBS-LRR Gene GbaNA1 Enhances Verticillium Wilt Resistance in Arabidopsis. |
| Q31107155 | High-resolution mapping and chromosome landing at the root-know nematode resistance locus Ma from Myrobalan plum using a large-insert BAC DNA library. |
| Q47655461 | HsfA1a is essential for Mi-1.2-mediated resistance to Meloidogyne incognita, and regulates Wfi1 transcription and H2O2 production |
| Q44728325 | Identification and analyses of candidate genes for rpp4-mediated resistance to Asian soybean rust in soybean |
| Q44843583 | Identification and analysis of expressed resistance gene sequences in wheat |
| Q30835492 | Identification and characterization of nucleotide-binding site-leucine-rich repeat genes in the model plant Medicago truncatula |
| Q35577157 | Identification and distribution of the NBS-LRR gene family in the Cassava genome |
| Q42248553 | Identification and mapping of a novel dominant resistance gene, TuRB07 to Turnip mosaic virus in Brassica rapa |
| Q42580579 | Identification and phylogenetic analysis of a CC-NBS-LRR encoding gene assigned on chromosome 7B of wheat |
| Q57929381 | Identification of NBS-encoding genes linked to black rot resistance in cabbage (Brassica oleracea var. capitata) |
| Q36981428 | Identification of immunity related genes to study the Physalis peruviana--Fusarium oxysporum pathosystem |
| Q50438183 | Immune activation mediated by the late blight resistance protein R1 requires nuclear localization of R1 and the effector AVR1. |
| Q34502251 | In silico approach to predict candidate R proteins and to define their domain architecture |
| Q35623244 | Indirect activation of a plant nucleotide binding site-leucine-rich repeat protein by a bacterial protease |
| Q37810618 | Innate immunity: has poplar made its BED? |
| Q38248146 | Integrated signaling networks in plant responses to sedentary endoparasitic nematodes: a perspective |
| Q38304387 | Introgressed and endogenous Mi-1 gene clusters in tomato differ by complex rearrangements in flanking sequences and show sequence exchange and diversifying selection among homologues |
| Q39169237 | Isolation and characterization of NBS-LRR resistance gene analogues from mango |
| Q34669918 | Isolation and diversity analysis of resistance gene homologues from switchgrass |
| Q45325538 | Isolation and validation of a candidate Rsv3 gene from a soybean genotype that confers strain-specific resistance to soybean mosaic virus. |
| Q38322695 | Isolation of TIR and non-TIR NBS--LRR resistance gene analogues and identification of molecular markers linked to a powdery mildew resistance locus in chestnut rose (Rosa roxburghii Tratt). |
| Q45679871 | Isolation, characterization, and structure analysis of a non-TIR-NBS-LRR encoding candidate gene from MYMIV-resistant Vigna mungo |
| Q34446982 | Mechanisms of plant resistance to viruses |
| Q37683089 | Mechanisms of recognition in dominant R gene mediated resistance. |
| Q28594923 | Mg2+-dependent interactions of ATP with the cystathionine-β-synthase (CBS) domains of a magnesium transporter |
| Q35568155 | Molecular and functional analyses of a maize autoactive NB-LRR protein identify precise structural requirements for activity |
| Q41208910 | Molecular characterization of Pvr9 that confers a hypersensitive response to Pepper mottle virus (a potyvirus) in Nicotiana benthamiana |
| Q42611437 | Molecular characterization of cDNA encoding resistance gene-like sequences in Buchloe dactyloides |
| Q40026512 | Molecular cloning of a coiled-coil-nucleotide-binding-site-leucine-rich repeat gene from pearl millet and its expression pattern in response to the downy mildew pathogen |
| Q28552658 | Multiple Domain Associations within the Arabidopsis Immune Receptor RPP1 Regulate the Activation of Programmed Cell Death |
| Q42680832 | Mutations in the NB-ARC domain of I-2 that impair ATP hydrolysis cause autoactivation. |
| Q52606191 | Nucleocytoplasmic distribution is required for activation of resistance by the potato NB-LRR receptor Rx1 and is balanced by its functional domains. |
| Q46256649 | Overexpression of the Prunus sogdiana NBS-LRR Subgroup Gene PsoRPM2 Promotes Resistance to the Root-Knot Nematode Meloidogyne incognita in Tobacco |
| Q36080388 | Pathogen sensing by nucleotide-binding oligomerization domain-containing protein 2 (NOD2) is mediated by direct binding to muramyl dipeptide and ATP. |
| Q44809238 | Physical association of the NB-LRR resistance protein Rx with a Ran GTPase-activating protein is required for extreme resistance to Potato virus X. |
| Q24685011 | Plant NBS-LRR proteins in pathogen sensing and host defense |
| Q21184146 | Plant NBS-LRR proteins: adaptable guards |
| Q57274416 | Poplar and Pathogen Interactions: Insights fromPopulusGenome-Wide Analyses of Resistance and Defense Gene Families and Gene Expression Profiling |
| Q42159696 | Protein-protein interactions as a proxy to monitor conformational changes and activation states of the tomato resistance protein I-2. |
| Q28488186 | Proteomic identification of differentially expressed proteins between male and female plants in Pistacia chinensis |
| Q48039544 | R gene expression changes related to Cercospora hydrangeae L. |
| Q51538264 | RIN13 is a positive regulator of the plant disease resistance protein RPM1. |
| Q42776038 | RanGAP2 mediates nucleocytoplasmic partitioning of the NB-LRR immune receptor Rx in the Solanaceae, thereby dictating Rx function |
| Q35641013 | Random mutagenesis of the nucleotide-binding domain of NRC1 (NB-LRR Required for Hypersensitive Response-Associated Cell Death-1), a downstream signalling nucleotide-binding, leucine-rich repeat (NB-LRR) protein, identifies gain-of-function mutation |
| Q37240816 | Recent Advances in Plant NLR Structure, Function, Localization, and Signaling |
| Q36947736 | Recent progress in elucidating the structure, function and evolution of disease resistance genes in plants |
| Q35583005 | Recognition and Response in the Plant Immune System |
| Q37088358 | Recognition of bacterial plant pathogens: local, systemic and transgenerational immunity |
| Q51878884 | Semi-dominant mutations in the CC-NB-LRR-type R gene, NLS1, lead to constitutive activation of defense responses in rice. |
| Q40093455 | Signaling from the plasma-membrane localized plant immune receptor RPM1 requires self-association of the full-length protein |
| Q45412787 | Single amino acid alterations in Arabidopsis thaliana RCY1 compromise resistance to Cucumber mosaic virus, but differentially suppress hypersensitive response-like cell death |
| Q38109664 | Solanum resistance genes against Phytophthora infestans and their corresponding avirulence genes. |
| Q37421268 | Stepwise artificial evolution of a plant disease resistance gene |
| Q92956628 | Structural and biochemical studies of an NB-ARC domain from a plant NLR immune receptor |
| Q37483038 | Structure and Function of the TIR Domain from the Grape NLR Protein RPV1. |
| Q34299409 | Structure-function analysis of barley NLR immune receptor MLA10 reveals its cell compartment specific activity in cell death and disease resistance. |
| Q43413036 | Structure-function analysis of the coiled-coil and leucine-rich repeat domains of the RPS5 disease resistance protein |
| Q42673632 | Survey of resistance gene analogs in Solanum caripense, a relative of potato and tomato, and update on R gene genealogy |
| Q52737272 | Systematic analysis and comparison of nucleotide-binding site disease resistance genes in maize. |
| Q46270607 | The Coiled-coil and Nucleotide Binding Domains of BROWN PLANTHOPPER RESISTANCE14 Function in Signaling and Resistance Against Planthopper in Rice |
| Q46603037 | The Conformation of a Plasma Membrane-Localized Somatic Embryogenesis Receptor Kinase Complex Is Altered by a Potato Aphid-Derived Effector. |
| Q37402401 | The Contrasting Effects of Elevated CO2 on TYLCV Infection of Tomato Genotypes with and without the Resistance Gene, Mi-1.2. |
| Q57450881 | The Hypersensitive Response in PAMP- and Effector-Triggered Immune Responses |
| Q34168366 | The I2 resistance gene homologues in Solanum have complex evolutionary patterns and are targeted by miRNAs |
| Q46279627 | The Island Cotton NBS-LRR Gene GbaNA1 Confers Resistance to the Non-race 1 Verticillium dahliae Isolate Vd991. |
| Q46678840 | The MI-1-mediated pest resistance requires Hsp90 and Sgt1. |
| Q34332503 | The NB-LRR proteins RGA4 and RGA5 interact functionally and physically to confer disease resistance |
| Q42683995 | The Tomato Nucleotide-binding Leucine-rich Repeat Immune Receptor I-2 Couples DNA-binding to Nucleotide-binding Domain Nucleotide Exchange |
| Q37743757 | The arms race between tomato and Fusarium oxysporum |
| Q54541984 | The coiled-coil and nucleotide binding domains of the Potato Rx disease resistance protein function in pathogen recognition and signaling. |
| Q48164784 | The high-quality genome of Brassica napus cultivar 'ZS11' reveals the introgression history in semi-winter morphotype |
| Q37328359 | The leucine-rich repeat domain in plant innate immunity: a wealth of possibilities |
| Q36893347 | The plant host pathogen interface: cell wall and membrane dynamics of pathogen-induced responses. |
| Q99546577 | The rice NLR pair Pikp-1/Pikp-2 initiates cell death through receptor cooperation rather than negative regulation |
| Q34333943 | The small heat shock protein 20 RSI2 interacts with and is required for stability and function of tomato resistance protein I-2. |
| Q40055989 | The wheat homolog of putative nucleotide-binding site-leucine-rich repeat resistance gene TaRGA contributes to resistance against powdery mildew |
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