scholarly article | Q13442814 |
P50 | author | Aude Cerutti | Q88422832 |
Richard Berthomé | Q88605253 | ||
Nathalie Leonhardt | Q73449603 | ||
Laurent Noël | Q79338944 | ||
P2093 | author name string | Yves Martinez | |
Marie-Christine Auriac | |||
Serge Chiarenza | |||
Alain Jauneau | |||
Emmanuelle Lauber | |||
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SHORT INTERNODES/STYLISH genes, regulators of auxin biosynthesis, are involved in leaf vein development in Arabidopsis thaliana | Q85844894 | ||
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Comparison of the genomes of two Xanthomonas pathogens with differing host specificities | Q22122346 | ||
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Replication of an origin-containing derivative of plasmid RK2 dependent on a plasmid function provided in trans | Q24597491 | ||
Glucosinolate metabolites required for an Arabidopsis innate immune response | Q24645375 | ||
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The cuticle and plant defense to pathogens | Q26851416 | ||
Real time live imaging of phytopathogenic bacteria Xanthomonas campestris pv. campestris MAFF106712 in 'plant sweet home' | Q27342184 | ||
The plant immune system | Q28131801 | ||
A glucosinolate metabolism pathway in living plant cells mediates broad-spectrum antifungal defense | Q28304506 | ||
An abscisic acid-independent oxylipin pathway controls stomatal closure and immune defense in Arabidopsis | Q28488213 | ||
Genomics and transcriptomics of Xanthomonas campestris species challenge the concept of core type III effectome | Q28607226 | ||
Small mobilizable multi-purpose cloning vectors derived from the Escherichia coli plasmids pK18 and pK19: selection of defined deletions in the chromosome of Corynebacterium glutamicum | Q29615259 | ||
Broad host range DNA cloning system for gram-negative bacteria: construction of a gene bank of Rhizobium meliloti | Q29615340 | ||
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How Xanthomonas type III effectors manipulate the host plant | Q30319160 | ||
Getting across--bacterial type III effector proteins on their way to the plant cell | Q30320765 | ||
The elicitation of plant innate immunity by lipooligosaccharide of Xanthomonas campestris | Q30794570 | ||
Bacteria establish an aqueous living space in plants crucial for virulence | Q30830661 | ||
Salicylic acid and jasmonic acid signaling defense pathways reduce natural bacterial diversity on Arabidopsis thaliana | Q30835809 | ||
The pepper 9-lipoxygenase gene CaLOX1 functions in defense and cell death responses to microbial pathogens | Q30919416 | ||
Cloning of genes involved in pathogenicity of Xanthomonas campestris pv. campestris using the broad host range cosmid pLAFR1. | Q33232926 | ||
Xanthomonas campestrisContains a Cluster ofhrpGenes Related to the LargerhrpCluster ofPseudomonas solanacearum | Q33241847 | ||
Plant carbohydrate scavenging through tonB-dependent receptors: a feature shared by phytopathogenic and aquatic bacteria | Q33274647 | ||
Controlled synthesis of the DSF cell-cell signal is required for biofilm formation and virulence in Xanthomonas campestris | Q33291047 | ||
The balance between the MIR164A and CUC2 genes controls leaf margin serration in Arabidopsis | Q33343380 | ||
A one pot, one step, precision cloning method with high throughput capability | Q33382728 | ||
Evidence for the existence of a sulfonylurea-receptor-like protein in plants: modulation of stomatal movements and guard cell potassium channels by sulfonylureas and potassium channel openers | Q33750987 | ||
Stomatal development in Arabidopsis | Q34358240 | ||
Plant stomata function in innate immunity against bacterial invasion | Q34564415 | ||
Expression patterns of flagellin sensing 2 map to bacterial entry sites in plant shoots and roots | Q34580661 | ||
Control of leaf vascular patterning by polar auxin transport | Q34649214 | ||
xopAC-triggered immunity against Xanthomonas depends on Arabidopsis receptor-like cytoplasmic kinase genes PBL2 and RIPK. | Q34952022 | ||
Two new complete genome sequences offer insight into host and tissue specificity of plant pathogenic Xanthomonas spp. | Q35274650 | ||
The Xanthomonas Hrp type III system secretes proteins from plant and mammalian bacterial pathogens | Q35604617 | ||
Interactions Between Xanthomonas Species and Arabidopsis thaliana | Q35625739 | ||
Biofilm dispersal in Xanthomonas campestris is controlled by cell-cell signaling and is required for full virulence to plants | Q35978792 | ||
AvrAC(Xcc8004), a type III effector with a leucine-rich repeat domain from Xanthomonas campestris pathovar campestris confers avirulence in vascular tissues of Arabidopsis thaliana ecotype Col-0. | Q36422269 | ||
Dynamics and biological relevance of DNA demethylation in Arabidopsis antibacterial defense | Q36598402 | ||
Natural genetic variation of Xanthomonas campestris pv. campestris pathogenicity on arabidopsis revealed by association and reverse genetics. | Q36936300 | ||
Phytopathogen type III effector weaponry and their plant targets | Q36943161 | ||
Stomata and pathogens: Warfare at the gates | Q37761841 | ||
Sulfur-containing secondary metabolites from Arabidopsis thaliana and other Brassicaceae with function in plant immunity | Q38027115 | ||
Guarding the green: pathways to stomatal immunity. | Q38084659 | ||
Developmental priming of stomatal sensitivity to abscisic acid by leaf microclimate | Q39337141 | ||
Boron-toxicity tolerance in barley arising from efflux transporter amplification | Q39500510 | ||
The Decoy Substrate of a Pathogen Effector and a Pseudokinase Specify Pathogen-Induced Modified-Self Recognition and Immunity in Plants. | Q39573267 | ||
Regulation of sugar transporter activity for antibacterial defense in Arabidopsis | Q40436667 | ||
Phenotypic Switching Affecting Chemotaxis, Xanthan Production, and Virulence in Xanthomonas campestris. | Q41930230 | ||
Regulated expression of Arabidopsis shaker K+ channel genes involved in K+ uptake and distribution in the plant. | Q42439326 | ||
Selenate-resistant mutants of Arabidopsis thaliana identify Sultr1;2, a sulfate transporter required for efficient transport of sulfate into roots | Q42517447 | ||
GAL4 GFP enhancer trap lines for analysis of stomatal guard cell development and gene expression. | Q42711554 | ||
Indolic secondary metabolites protect Arabidopsis from the oomycete pathogen Phytophthora brassicae | Q42742945 | ||
Xanthomonas campestris pv. campestris (cause of black rot of crucifers) in the genomic era is still a worldwide threat to brassica crops. | Q43706485 | ||
Gradual shifts in sites of free-auxin production during leaf-primordium development and their role in vascular differentiation and leaf morphogenesis in Arabidopsis | Q44354335 | ||
Within-species flagellin polymorphism in Xanthomonas campestris pv campestris and its impact on elicitation of Arabidopsis FLAGELLIN SENSING2-dependent defenses | Q44787283 | ||
Overexpression of GLUTAMINE DUMPER1 leads to hypersecretion of glutamine from Hydathodes of Arabidopsis leaves. | Q44945519 | ||
Arabidopsis FAMA controls the final proliferation/differentiation switch during stomatal development. | Q45986841 | ||
Xanthomonas campestris overcomes Arabidopsis stomatal innate immunity through a DSF cell-to-cell signal-regulated virulence factor | Q46192868 | ||
Diffusible signal factor family signals provide a fitness advantage to Xanthomonas campestris pv. campestris in interspecies competition | Q46590277 | ||
CO2 regulator SLAC1 and its homologues are essential for anion homeostasis in plant cells. | Q46729399 | ||
Xanthomonas campestris lipooligosaccharides trigger innate immunity and oxidative burst in Arabidopsis | Q46814610 | ||
Biophoton imaging: a nondestructive method for assaying R gene responses | Q47846750 | ||
The receptor-like protein ReMAX of Arabidopsis detects the microbe-associated molecular pattern eMax from Xanthomonas. | Q47903082 | ||
A locus determining pathogenicity of Xanthomonas campestris is involved in lipopolysaccharide biosynthesis. | Q48071052 | ||
YUCCA genes are expressed in response to leaf adaxial-abaxial juxtaposition and are required for leaf margin development. | Q51582374 | ||
Mechanisms of leaf tooth formation in Arabidopsis. | Q51916099 | ||
Increased power with modified forms of the Levene (Med) test for heterogeneity of variance. | Q52076819 | ||
Optimization of pathogenicity assays to study the Arabidopsis thaliana-Xanthomonas campestris pv. campestris pathosystem. | Q53859279 | ||
Peptidoglycan and Muropeptides from Pathogens Agrobacterium and Xanthomonas Elicit Plant Innate Immunity: Structure and Activity | Q57630137 | ||
Engineering theluxCDABEgenes fromPhotorhabdus luminescensto provide a bioluminescent reporter for constitutive and promoter probe plasmids and mini-Tn5constructs | Q61980088 | ||
Tissue-specific expression of Arabidopsis AKT1 gene is consistent with a role in K+ nutrition | Q71566190 | ||
Entry of Xanthomonas campestris pv. campestris into hydathodes of Arabidopsis thaliana leaves: a system for studying early infection events in bacterial pathogenesis | Q74613534 | ||
Effect of leaf surface waxes on leaf colonization by Pantoea agglomerans and Clavibacter michiganensis | Q78661286 | ||
Allylglucosinolate and herbivorous caterpillars: a contrast in toxicity and tolerance | Q80896699 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Xanthomonas campestris | Q3753551 |
P1104 | number of pages | 17 | |
P304 | page(s) | 700-716 | |
P577 | publication date | 2017-02-09 | |
P1433 | published in | Plant Physiology | Q3906288 |
P1476 | title | Immunity at Cauliflower Hydathodes Controls Systemic Infection by Xanthomonas campestris pv campestris | |
P478 | volume | 174 |
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