scholarly article | Q13442814 |
P50 | author | Robert S. Munson | Q68296620 |
Stanley M Spinola | Q96160343 | ||
Dharanesh Gangaiah | Q123426078 | ||
Kate R. Fortney | Q125124639 | ||
P2093 | author name string | Xinjun Zhang | |
Yunlong Liu | |||
Beth Baker | |||
P2860 | cites work | NIH Image to ImageJ: 25 years of image analysis | Q23319322 |
KEGG: kyoto encyclopedia of genes and genomes | Q24515297 | ||
EcoCyc: a comprehensive database of Escherichia coli biology | Q24612081 | ||
Just scratching the surface: an expanding view of the Cpx envelope stress response | Q27026219 | ||
Fitting a mixture model by expectation maximization to discover motifs in biopolymers | Q27860556 | ||
Systematic and integrative analysis of large gene lists using DAVID bioinformatics resources | Q27860739 | ||
edgeR: a Bioconductor package for differential expression analysis of digital gene expression data | Q27860819 | ||
The MetaCyc database of metabolic pathways and enzymes and the BioCyc collection of pathway/genome databases | Q28253558 | ||
Fast and accurate long-read alignment with Burrows-Wheeler transform | Q29547193 | ||
Serine protease autotransporters from Shigella flexneri and pathogenic Escherichia coli target a broad range of leukocyte glycoproteins | Q30431075 | ||
Model-based identification of cis-acting elements from microarray data | Q31041667 | ||
Evolution of competence and DNA uptake specificity in the Pasteurellaceae. | Q33260272 | ||
Characterization of the Cpx regulon in Escherichia coli strain MC4100. | Q33395214 | ||
Experimental infection of human volunteers with Haemophilus ducreyi: fifteen years of clinical data and experience | Q33443281 | ||
Global analysis of extracytoplasmic stress signaling in Escherichia coli | Q33504535 | ||
Haemophilus ducreyi SapA contributes to cathelicidin resistance and virulence in humans | Q33675722 | ||
Expression of peptidoglycan-associated lipoprotein is required for virulence in the human model of Haemophilus ducreyi infection. | Q34005053 | ||
Haemophilus ducreyi associates with phagocytes, collagen, and fibrin and remains extracellular throughout infection of human volunteers | Q34006973 | ||
Expression of the Flp proteins by Haemophilus ducreyi is necessary for virulence in human volunteers. | Q34027851 | ||
Activation of the CpxRA system by deletion of cpxA impairs the ability of Haemophilus ducreyi to infect humans | Q34119494 | ||
A superoxide dismutase C mutant of Haemophilus ducreyi is virulent in human volunteers | Q34120582 | ||
NGSUtils: a software suite for analyzing and manipulating next-generation sequencing datasets. | Q34546632 | ||
Deletion of mtrC in Haemophilus ducreyi increases sensitivity to human antimicrobial peptides and activates the CpxRA regulon | Q35075813 | ||
A Haemophilus ducreyi CpxR deletion mutant is virulent in human volunteers | Q35127635 | ||
Transduction of envelope stress in Escherichia coli by the Cpx two-component system | Q35634688 | ||
Sialylation of lipooligosaccharides is dispensable for the virulence of Haemophilus ducreyi in humans | Q35689455 | ||
Inhibition of acetyl phosphate-dependent transcription by an acetylatable lysine on RNA polymerase | Q36234801 | ||
Permeases of the sap transporter are required for cathelicidin resistance and virulence of Haemophilus ducreyi in humans | Q36486810 | ||
Carbon storage regulator A contributes to the virulence of Haemophilus ducreyi in humans by multiple mechanisms | Q36558726 | ||
Eradicating chancroid | Q36934854 | ||
A fibrinogen-binding lipoprotein contributes to the virulence of Haemophilus ducreyi in humans | Q37116470 | ||
DOOR: a database for prokaryotic operons | Q37202634 | ||
Inactivation of the Haemophilus ducreyi luxS gene affects the virulence of this pathogen in human subjects | Q37347759 | ||
Signal integration by the Cpx-envelope stress system | Q37957278 | ||
Pseudomonas aeruginosa twitching motility: type IV pili in action | Q38022664 | ||
Regulation of expression of the Haemophilus ducreyi LspB and LspA2 proteins by CpxR. | Q38353976 | ||
The Escherichia coli Cpx envelope stress response regulates genes of diverse function that impact antibiotic resistance and membrane integrity | Q41445473 | ||
Characterization of the CpxRA regulon in Haemophilus ducreyi | Q41825491 | ||
Peptide transport in Helicobacter pylori: roles of dpp and opp systems and evidence for additional peptide transporters | Q41839500 | ||
Signal integration by the two-component signal transduction response regulator CpxR. | Q41866997 | ||
Oxalate:formate exchange. The basis for energy coupling in Oxalobacter | Q41957209 | ||
The glpP and glpF genes of the glycerol regulon in Bacillus subtilis | Q42619448 | ||
Evaluation of an isogenic hemolysin-deficient mutant in the human model of Haemophilus ducreyi infection | Q43437828 | ||
Expression of OmpP2A and OmpP2B is not required for pustule formation by Haemophilus ducreyi in human volunteers | Q43591660 | ||
Function of DcuS from Escherichia coli as a fumarate-stimulated histidine protein kinase in vitro | Q44094484 | ||
Cutaneous chancroid in a visitor from Vanuatu | Q44665292 | ||
Chronic cutaneous ulcers secondary to Haemophilus ducreyi infection. | Q44775903 | ||
The fumarate/succinate antiporter DcuB of Escherichia coli is a bifunctional protein with sites for regulation of DcuS-dependent gene expression | Q46289097 | ||
The enterobacterial common antigen-like gene cluster of Haemophilus ducreyi contributes to virulence in humans | Q46636711 | ||
Control of the expression of the manXYZ operon in Escherichia coli: Mlc is a negative regulator of the mannose PTS. | Q48040018 | ||
Localization of Haemophilus ducreyi in naturally acquired chancroidal ulcers | Q57991090 | ||
Standardization of the experimental model of Haemophilus ducreyi infection in human subjects. | Q64896911 | ||
Genome-wide profiling of promoter recognition by the two-component response regulator CpxR-P in Escherichia coli | Q77939133 | ||
Haemophilus ducreyi causing chronic skin ulceration in children visiting Samoa | Q80179446 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 15 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Haemophilus ducreyi | Q1114305 |
P304 | page(s) | 3486-3502 | |
P577 | publication date | 2013-05-31 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | Activation of CpxRA in Haemophilus ducreyi primarily inhibits the expression of its targets, including major virulence determinants | |
P478 | volume | 195 |
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Q35600598 | Development and validation of a high-throughput cell-based screen to identify activators of a bacterial two-component signal transduction system. |
Q35833852 | DksA and (p)ppGpp have unique and overlapping contributions to Haemophilus ducreyi pathogenesis in humans |
Q26765871 | Environmental Regulation of Yersinia Pathophysiology |
Q48546842 | Evaluation of CpxRA as a Therapeutic Target for Uropathogenic Escherichia coli Infections |
Q37631509 | Haemophilus ducreyi Hfq contributes to virulence gene regulation as cells enter stationary phase |
Q34593520 | Haemophilus ducreyi RpoE and CpxRA appear to play distinct yet complementary roles in regulation of envelope-related functions |
Q36888586 | Haemophilus ducreyi Seeks Alternative Carbon Sources and Adapts to Nutrient Stress and Anaerobiosis during Experimental Infection of Human Volunteers |
Q90267038 | Maintaining Integrity Under Stress: Envelope Stress Response Regulation of Pathogenesis in Gram-Negative Bacteria |
Q33899779 | Reciprocal regulation of resistance-nodulation-division efflux systems and the Cpx two-component system in Vibrio cholerae |
Q42553041 | The Cpx envelope stress response modifies peptidoglycan cross-linking via the L,D-transpeptidase LdtD and the novel protein YgaU. |
Q35609270 | The Cpx system regulates virulence gene expression in Vibrio cholerae. |
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Q37264866 | The Haemophilus ducreyi Fis protein is involved in controlling expression of the lspB-lspA2 operon and other virulence factors |
Q53232729 | The Legionella pneumophila CpxRA two-component regulatory system: new insights into CpxR's function as a dual regulator and its connection to the effectors regulatory network. |
Q51141864 | The MetaCyc database of metabolic pathways and enzymes and the BioCyc collection of Pathway/Genome Databases. |
Q30368383 | The Vibrio cholerae Cpx envelope stress response senses and mediates adaptation to low iron. |
Q35605538 | Validation of reference genes for quantitative real-time PCR (qPCR) analysis of Actinobacillus suis |
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