scholarly article | Q13442814 |
P50 | author | Kasper R Andersen | Q56396153 |
Cyril Zipfel | Q56468350 | ||
Frank Menke | Q57441908 | ||
Daniel Couto | Q87713622 | ||
Simona Radutoiu | Q91220942 | ||
Mei Mei Jaslyn Elizabeth Wong | Q93023577 | ||
Veit Schwämmle | Q39365430 | ||
Fabio Nogueira | Q42777426 | ||
Mickael Blaise | Q46953466 | ||
P2093 | author name string | Søren Thirup | |
Jens Stougaard | |||
Lene H Madsen | |||
Svend Dam | |||
Paul Derbyshire | |||
Marcin Nadzieja | |||
Christoph A Bücherl | |||
Mette H Asmussen | |||
Mette Uldum-Berentsen | |||
Niels N Sandal | |||
Sina Schroeder | |||
P2860 | cites work | Assembly of designer TAL effectors by Golden Gate cloning | Q21560825 |
Structural characterization of the RLCK family member BSK8: a pseudokinase with an unprecedented architecture | Q27685327 | ||
Structure of the pseudokinase domain of BIR2, a regulator of BAK1-mediated immune signaling in Arabidopsis | Q27689307 | ||
Fast, scalable generation of high-quality protein multiple sequence alignments using Clustal Omega | Q27860809 | ||
The secreted peptide PIP1 amplifies immunity through receptor-like kinase 7 | Q28542804 | ||
NUCLEOPORIN85 is required for calcium spiking, fungal and bacterial symbioses, and seed production in Lotus japonicus | Q28757771 | ||
A PP6-type phosphatase holoenzyme directly regulates PIN phosphorylation and auxin efflux in Arabidopsis | Q33353781 | ||
CYTOKININ OXIDASE/DEHYDROGENASE3 Maintains Cytokinin Homeostasis during Root and Nodule Development in Lotus japonicus. | Q33362050 | ||
A family of receptor-like kinases are regulated by BES1 and involved in plant growth in Arabidopsis thaliana | Q33570287 | ||
A receptor-like cytoplasmic kinase, BIK1, associates with a flagellin receptor complex to initiate plant innate immunity | Q33591475 | ||
Genetic analysis of calcium spiking responses in nodulation mutants of Medicago truncatula | Q33925318 | ||
The molecular network governing nodule organogenesis and infection in the model legume Lotus japonicus | Q33941713 | ||
Positive and negative regulation of cortical cell division during root nodule development in Lotus japonicus is accompanied by auxin response. | Q53140785 | ||
Epidermal auxin biosynthesis facilitates rhizobial infection in Lotus japonicus. | Q54231632 | ||
CYCLOPS, a DNA-binding transcriptional activator, orchestrates symbiotic root nodule development. | Q54377255 | ||
Cleavage of the SYMBIOSIS RECEPTOR-LIKE KINASE ectodomain promotes complex formation with Nod factor receptor 5. | Q54378798 | ||
A receptor-like cytoplasmic kinase targeted by a plant pathogen effector is directly phosphorylated by the chitin receptor and mediates rice immunity. | Q54443895 | ||
Receptor-Like Cytoplasmic Kinases: Central Players in Plant Receptor Kinase-Mediated Signaling. | Q54534914 | ||
The Receptor-like Cytoplasmic Kinase BIK1 Localizes to the Nucleus and Regulates Defense Hormone Expression during Plant Innate Immunity. | Q54981084 | ||
Immunoprecipitation of Plasma Membrane Receptor-Like Kinases for Identification of Phosphorylation Sites and Associated Proteins. | Q55036481 | ||
The Arabidopsis receptor kinase FLS2 binds flg22 and determines the specificity of flagellin perception. | Q55041494 | ||
Epidermal LysM receptor ensures robust symbiotic signalling in Lotus japonicus. | Q55473358 | ||
Regulation of pattern recognition receptor signalling by phosphorylation and ubiquitination | Q57448560 | ||
Medicago truncatula NIN is essential for rhizobial-independent nodule organogenesis induced by autoactive calcium/calmodulin-dependent protein kinase | Q57713481 | ||
Distinct Transcriptomic Responses to a Spectrum of Bacteria Ranging From Symbiotic to Pathogenic | Q58735066 | ||
A receptor kinase gene regulating symbiotic nodule development | Q59068234 | ||
Symbiotic host-specificity of Rhizobium meliloti is determined by a sulphated and acylated glucosamine oligosaccharide signal | Q59086169 | ||
Evolution and Regulation of theLotus japonicus LysM ReceptorGene Family | Q60257575 | ||
Regulation of cell death and innate immunity by two receptor-like kinases in Arabidopsis | Q84251949 | ||
plenty, a novel hypernodulation mutant in Lotus japonicus | Q84791593 | ||
Brassinosteroid signal transduction from cell-surface receptor kinases to nuclear transcription factors | Q34022473 | ||
A nucleoporin is required for induction of Ca2+ spiking in legume nodule development and essential for rhizobial and fungal symbiosis. | Q34249742 | ||
BRI1/BAK1, a receptor kinase pair mediating brassinosteroid signaling | Q34525831 | ||
BAK1, an Arabidopsis LRR receptor-like protein kinase, interacts with BRI1 and modulates brassinosteroid signaling | Q34525838 | ||
Perception of the bacterial PAMP EF-Tu by the receptor EFR restricts Agrobacterium-mediated transformation. | Q34528524 | ||
Positional cloning identifies Lotus japonicus NSP2, a putative transcription factor of the GRAS family, required for NIN and ENOD40 gene expression in nodule initiation. | Q34605280 | ||
A flagellin-induced complex of the receptor FLS2 and BAK1 initiates plant defence | Q34649229 | ||
Nodule inception directly targets NF-Y subunit genes to regulate essential processes of root nodule development in Lotus japonicus | Q34649811 | ||
An intermolecular binding mechanism involving multiple LysM domains mediates carbohydrate recognition by an endopeptidase. | Q35167687 | ||
Nuclear membranes control symbiotic calcium signaling of legumes. | Q35180546 | ||
A role for the mevalonate pathway in early plant symbiotic signaling. | Q35946154 | ||
LysM domains mediate lipochitin-oligosaccharide recognition and Nfr genes extend the symbiotic host range. | Q36013398 | ||
The Arabidopsis Protein Phosphatase PP2C38 Negatively Regulates the Central Immune Kinase BIK1. | Q36096103 | ||
Receptor-like cytoplasmic kinase MARIS functions downstream of CrRLK1L-dependent signaling during tip growth | Q36120285 | ||
Legume receptors perceive the rhizobial lipochitin oligosaccharide signal molecules by direct binding. | Q36187377 | ||
Rhizobium--plant signal exchange | Q36250270 | ||
A nod factor binding lectin with apyrase activity from legume roots | Q36373519 | ||
Inoculation insensitive promoters for cell type enriched gene expression in legume roots and nodules | Q36493742 | ||
CYCLOPS, a mediator of symbiotic intracellular accommodation. | Q37068629 | ||
Three related receptor-like kinases are required for optimal cell elongation in Arabidopsis thaliana | Q37183167 | ||
A Ca2+/calmodulin-dependent protein kinase required for symbiotic nodule development: Gene identification by transcript-based cloning | Q37358555 | ||
The Arabidopsis CERK1-associated kinase PBL27 connects chitin perception to MAPK activation | Q37414039 | ||
Chitin-induced activation of immune signaling by the rice receptor CEBiP relies on a unique sandwich-type dimerization | Q37519787 | ||
Lotus Base: An integrated information portal for the model legume Lotus japonicus | Q37529200 | ||
Receptor kinase complex transmits RALF peptide signal to inhibit root growth in Arabidopsis. | Q37534313 | ||
Induction of Rhizobium meliloti nodC expression by plant exudate requires nodD | Q37550883 | ||
Differential regulation of the Epr3 receptor coordinates membrane-restricted rhizobial colonization of root nodule primordia. | Q37672700 | ||
Autophosphorylation-based Calcium (Ca2+) Sensitivity Priming and Ca2+/Calmodulin Inhibition of Arabidopsis thaliana Ca2+-dependent Protein Kinase 28 (CPK28). | Q37705607 | ||
OsCERK1 and OsRLCK176 play important roles in peptidoglycan and chitin signaling in rice innate immunity | Q38303444 | ||
A plant regulator controlling development of symbiotic root nodules | Q38316189 | ||
Autophosphorylation is essential for the in vivo function of the Lotus japonicus Nod factor receptor 1 and receptor-mediated signalling in cooperation with Nod factor receptor 5. | Q38337847 | ||
A receptor kinase gene of the LysM type is involved in legume perception of rhizobial signals | Q38349434 | ||
Plant recognition of symbiotic bacteria requires two LysM receptor-like kinases. | Q38349438 | ||
Regulation of pattern recognition receptor signalling in plants | Q38914241 | ||
A putative Ca2+ and calmodulin-dependent protein kinase required for bacterial and fungal symbioses. | Q51036725 | ||
A nuclear-targeted cameleon demonstrates intranuclear Ca2+ spiking in Medicago truncatula root hairs in response to rhizobial nodulation factors. | Q51798956 | ||
Improved characterization of nod factors and genetically based variation in LysM Receptor domains identify amino acids expendable for nod factor recognition in Lotus spp. | Q51921220 | ||
Symbiotic mutants deficient in nodule establishment identified after T-DNA transformation of Lotus japonicus. | Q52182834 | ||
Legume LysM receptors mediate symbiotic and pathogenic signalling. | Q52548057 | ||
Plant signalling in symbiosis and immunity. | Q50450488 | ||
Proteome reference maps of the Lotus japonicus nodule and root. | Q50482820 | ||
Plasma Membrane CRPK1-Mediated Phosphorylation of 14-3-3 Proteins Induces Their Nuclear Import to Fine-Tune CBF Signaling during Cold Response. | Q50772695 | ||
Direct regulation of the NADPH oxidase RBOHD by the PRR-associated kinase BIK1 during plant immunity | Q39015503 | ||
The Structural Basis of Ligand Perception and Signal Activation by Receptor Kinases. | Q39104760 | ||
Receptor-mediated chitin perception in legume roots is functionally separable from Nod factor perception. | Q40065716 | ||
The Ethylene Responsive Factor Required for Nodulation 1 (ERN1) Transcription Factor Is Required for Infection-Thread Formation in Lotus japonicus | Q40379615 | ||
Lotus japonicus NF-YA1 Plays an Essential Role During Nodule Differentiation and Targets Members of the SHI/STY Gene Family. | Q40418720 | ||
Receptor-mediated exopolysaccharide perception controls bacterial infection. | Q40759275 | ||
Plant immune and growth receptors share common signalling components but localise to distinct plasma membrane nanodomains. | Q42015231 | ||
Spontaneous symbiotic reprogramming of plant roots triggered by receptor-like kinases. | Q42144555 | ||
Negative control of BAK1 by protein phosphatase 2A during plant innate immunity. | Q42548336 | ||
BSKs mediate signal transduction from the receptor kinase BRI1 in Arabidopsis | Q43065713 | ||
Responses of a model legume Lotus japonicus to lipochitin oligosaccharide nodulation factors purified from Mesorhizobium loti JRL501. | Q43661714 | ||
Root, root hair, and symbiotic mutants of the model legume Lotus japonicus. | Q43885302 | ||
Lysin motif-containing proteins LYP4 and LYP6 play dual roles in peptidoglycan and chitin perception in rice innate immunity | Q43992620 | ||
BR-SIGNALING KINASE1 physically associates with FLAGELLIN SENSING2 and regulates plant innate immunity in Arabidopsis | Q44403263 | ||
The leucine-rich repeat receptor kinase BIR2 is a negative regulator of BAK1 in plant immunity. | Q44871834 | ||
Binding of brassinosteroids to the extracellular domain of plant receptor kinase BRI1. | Q45224133 | ||
Hairy roots - a short cut to transgenic root nodules | Q45256467 | ||
NENA, a Lotus japonicus homolog of Sec13, is required for rhizodermal infection by arbuscular mycorrhiza fungi and rhizobia but dispensable for cortical endosymbiotic development. | Q45418452 | ||
Hydrogen peroxide-regulated genes in the Medicago truncatula-Sinorhizobium meliloti symbiosis. | Q45904528 | ||
Genome-wide LORE1 retrotransposon mutagenesis and high-throughput insertion detection in Lotus japonicus. | Q45979341 | ||
Medicago truncatula DMI1 required for bacterial and fungal symbioses in legumes. | Q46087073 | ||
Calcium spiking in plant root hairs responding to Rhizobium nodulation signals | Q46129099 | ||
Rhizobial and mycorrhizal symbioses in Lotus japonicus require lectin nucleotide phosphohydrolase, which acts upstream of calcium signaling | Q46169680 | ||
Nuclear-localized cyclic nucleotide-gated channels mediate symbiotic calcium oscillations. | Q46541888 | ||
3-hydroxy-3-methylglutaryl coenzyme a reductase 1 interacts with NORK and is crucial for nodulation in Medicago truncatula. | Q46835256 | ||
The FLS2-associated kinase BIK1 directly phosphorylates the NADPH oxidase RbohD to control plant immunity. | Q46919321 | ||
Arabidopsis pollen tube integrity and sperm release are regulated by RALF-mediated signaling. | Q47248549 | ||
RALF4/19 peptides interact with LRX proteins to control pollen tube growth in Arabidopsis. | Q47292349 | ||
LYS12 LysM receptor decelerates Phytophthora palmivora disease progression in Lotus japonicus | Q47368295 | ||
A plant receptor-like kinase required for both bacterial and fungal symbiosis. | Q47439053 | ||
The LORE1 insertion mutant resource. | Q47868073 | ||
Expression of the apyrase-like APY1 genes in roots of Medicago truncatula is induced rapidly and transiently by stress and not by Sinorhizobium meliloti or Nod factors. | Q48026849 | ||
Lotus japonicus CASTOR and POLLUX are ion channels essential for perinuclear calcium spiking in legume root endosymbiosis | Q48071786 | ||
Lotus japonicus nodulation requires two GRAS domain regulators, one of which is functionally conserved in a non-legume. | Q48083797 | ||
Deregulation of a Ca2+/calmodulin-dependent kinase leads to spontaneous nodule development. | Q48086397 | ||
LORE1, an active low-copy-number TY3-gypsy retrotransposon family in the model legume Lotus japonicus | Q48116536 | ||
NSP1 of the GRAS protein family is essential for rhizobial Nod factor-induced transcription | Q48133625 | ||
Nodulation signaling in legumes requires NSP2, a member of the GRAS family of transcriptional regulators | Q48133633 | ||
P275 | copyright license | Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International | Q24082749 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 28 | |
P921 | main subject | Lotus japonicus | Q50844716 |
P304 | page(s) | 14339-14348 | |
P577 | publication date | 2019-06-25 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | A Lotus japonicus cytoplasmic kinase connects Nod factor perception by the NFR5 LysM receptor to nodulation | |
P478 | volume | 116 |