scholarly article | Q13442814 |
P50 | author | Sylvie Reverchon | Q42575927 |
Henri William Nasser | Q67908121 | ||
P2860 | cites work | The phytopathogen Dickeya dadantii (Erwinia chrysanthemi 3937) is a pathogen of the pea aphid | Q24544104 |
Genome sequence of the plant-pathogenic bacterium Dickeya dadantii 3937 | Q24594165 | ||
Transcriptome of Dickeya dadantii infecting Acyrthosiphon pisum reveals a strong defense against antimicrobial peptides | Q28485076 | ||
Rhs proteins from diverse bacteria mediate intercellular competition | Q28489052 | ||
Bacterial chemoattraction towards jasmonate plays a role in the entry ofDickeya dadantiithrough wounded tissues | Q29301768 | ||
HecA, a member of a class of adhesins produced by diverse pathogenic bacteria, contributes to the attachment, aggregation, epidermal cell killing, and virulence phenotypes of Erwinia chrysanthemi EC16 on Nicotiana clevelandii seedlings | Q30852463 | ||
Characterization of indigoidine biosynthetic genes in Erwinia chrysanthemi and role of this blue pigment in pathogenicity | Q31034766 | ||
Type III secretion system genes of Dickeya dadantii 3937 are induced by plant phenolic acids | Q33359611 | ||
Frequency and diversity of small cryptic plasmids in the genus Rahnella | Q33532792 | ||
Role of the PhoP-PhoQ system in the virulence of Erwinia chrysanthemi strain 3937: involvement in sensitivity to plant antimicrobial peptides, survival at acid Hh, and regulation of pectolytic enzymes | Q33714573 | ||
The physiological stimulus for the BarA sensor kinase. | Q33725412 | ||
Evolution of the metabolic and regulatory networks associated with oxygen availability in two phytopathogenic enterobacteria | Q34206788 | ||
A fundamental regulatory mechanism operating through OmpR and DNA topology controls expression of Salmonella pathogenicity islands SPI-1 and SPI-2 | Q34211607 | ||
Quorum sensing signaling molecules produced by reference and emerging soft-rot bacteria (Dickeya and Pectobacterium spp.). | Q34249338 | ||
Identification of two feruloyl esterases in Dickeya dadantii 3937 and induction of the major feruloyl esterase and of pectate lyases by ferulic acid | Q34528554 | ||
Cellulase EGZ of Erwinia chrysanthemi: structural organization and importance of His98 and Glu133 residues for catalysis | Q34538132 | ||
Computational analyses of transcriptomic data reveal the dynamic organization of the Escherichia coli chromosome under different conditions | Q34677453 | ||
A widespread family of polymorphic contact-dependent toxin delivery systems in bacteria. | Q34684279 | ||
The minimal gene set member msrA, encoding peptide methionine sulfoxide reductase, is a virulence determinant of the plant pathogen Erwinia chrysanthemi | Q34931017 | ||
Topoisomerase function during bacterial responses to environmental challenge | Q35011357 | ||
Global effect of indole-3-acetic acid biosynthesis on multiple virulence factors of Erwinia chrysanthemi 3937. | Q35689609 | ||
The nucleoid-associated proteins H-NS and FIS modulate the DNA supercoiling response of the pel genes, the major virulence factors in the plant pathogen bacterium Dickeya dadantii. | Q36044716 | ||
Characterization of the Erwinia chrysanthemi Gan locus, involved in galactan catabolism | Q36098465 | ||
The in planta transcriptome of Ralstonia solanacearum: conserved physiological and virulence strategies during bacterial wilt of tomato | Q36145859 | ||
Differential role of ferritins in iron metabolism and virulence of the plant-pathogenic bacterium Erwinia chrysanthemi 3937. | Q36483207 | ||
PecS is a global regulator of the symptomatic phase in the phytopathogenic bacterium Erwinia chrysanthemi 3937. | Q36958068 | ||
Siderophore-controlled iron assimilation in the enterobacterium Erwinia chrysanthemi: evidence for the involvement of bacterioferritin and the Suf iron-sulfur cluster assembly machinery | Q37142849 | ||
Bacterial nucleoid-associated proteins, nucleoid structure and gene expression | Q37688895 | ||
Iron homeostasis and management of oxidative stress response in bacteria | Q37874952 | ||
Signal integration by the Cpx-envelope stress system | Q37957278 | ||
The role of secretion systems and small molecules in soft-rot Enterobacteriaceae pathogenicity | Q38018990 | ||
Role of iron homeostasis in the virulence of phytopathogenic bacteria: an 'à la carte' menu. | Q38061497 | ||
Homeostatic regulation of supercoiling sensitivity coordinates transcription of the bacterial genome | Q38312050 | ||
Characterization of kdgR, a gene of Erwinia chrysanthemi that regulates pectin degradation. | Q38333571 | ||
Comparative genomics of the KdgR regulon in Erwinia chrysanthemi 3937 and other gamma-proteobacteria. | Q41460782 | ||
H-NS: a modulator of environmentally regulated gene expression. | Q41462412 | ||
The Erwinia chrysanthemi phoP-phoQ operon plays an important role in growth at low pH, virulence and bacterial survival in plant tissue. | Q41466360 | ||
Genomic SELEX search for target promoters under the control of the PhoQP-RstBA signal relay cascade | Q42020709 | ||
Some of the out genes involved in the secretion of pectate lyases in Erwinia chrysanthemi are regulated by kdgR | Q42605722 | ||
Role of the nucleoid-associated protein H-NS in the synthesis of virulence factors in the phytopathogenic bacterium Erwinia chrysanthemi | Q42642927 | ||
Essential role of superoxide dismutase on the pathogenicity of Erwinia chrysanthemi strain 3937. | Q42651160 | ||
The Erwinia chrysanthemi 3937 PhoQ sensor kinase regulates several virulence determinants. | Q42941128 | ||
Massive production of butanediol during plant infection by phytopathogenic bacteria of the genera Dickeya and Pectobacterium. | Q43456361 | ||
THE OXIDATIVE BURST IN PLANT DISEASE RESISTANCE. | Q44073104 | ||
Coupling of iron assimilation and pectinolysis in Erwinia chrysanthemi 3937. | Q44210014 | ||
Dynamic regulation of GacA in type III secretion, pectinase gene expression, pellicle formation, and pathogenicity of Dickeya dadantii (Erwinia chrysanthemi 3937). | Q44256788 | ||
Mutations of ousA alter the virulence of Erwinia chrysanthemi. | Q45273129 | ||
Role of the LysR-type transcriptional regulator PecT and DNA supercoiling in the thermoregulation of pel genes, the major virulence factors in Dickeya dadantii. | Q45325540 | ||
hrp genes of Erwinia chrysanthemi 3937 are important virulence factors. | Q46039068 | ||
Role of the Dickeya dadantii Dps protein | Q46107449 | ||
Biogenesis of Fe/S proteins and pathogenicity: IscR plays a key role in allowing Erwinia chrysanthemi to adapt to hostile conditions. | Q46745617 | ||
The nucleoid-associated protein Fis directly modulates the synthesis of cellulose, an essential component of pellicle-biofilms in the phytopathogenic bacterium Dickeya dadantii. | Q47218423 | ||
Evidence against a direct antimicrobial role of H2O2 in the infection of plants by Erwinia chrysanthemi. | Q47871417 | ||
The PecT repressor coregulates synthesis of exopolysaccharides and virulence factors in Erwinia chrysanthemi. | Q47995075 | ||
The Dickeya dadantii biofilm matrix consists of cellulose nanofibres, and is an emergent property dependent upon the type III secretion system and the cellulose synthesis operon. | Q50041166 | ||
Activation of the bacterial sensor kinase PhoQ by acidic pH. | Q50072252 | ||
Modeling the onset of virulence in a pectinolytic bacterium. | Q51127335 | ||
Role of motility and chemotaxis in the pathogenesis of Dickeya dadantii 3937 (ex Erwinia chrysanthemi 3937). | Q51832923 | ||
Cyt toxin expression reveals an inverse regulation of insect and plant virulence factors of Dickeya dadantii. | Q52707495 | ||
Genome-wide analysis of the response of Dickeya dadantii 3937 to plant antimicrobial peptides. | Q54332099 | ||
Systematic targeted mutagenesis of the MarR/SlyA family members of Dickeya dadantii 3937 reveals a role for MfbR in the modulation of virulence gene expression in response to acidic pH. | Q54634081 | ||
Dickeya species: an emerging problem for potato production in Europe | Q56785269 | ||
P433 | issue | 5 | |
P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
P304 | page(s) | 622-636 | |
P577 | publication date | 2013-06-26 | |
P1433 | published in | Environmental Microbiology Reports | Q15816931 |
P1476 | title | Dickeya ecology, environment sensing and regulation of virulence programme | |
P478 | volume | 5 |
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