| scholarly article | Q13442814 |
| P50 | author | Amanda G Oglesby-Sherrouse | Q56670294 |
| P2093 | author name string | Shelley M Payne | |
| Ronald K Taylor | |||
| Alexandra R Mey | |||
| Elizabeth E Wyckoff | |||
| Eva Rab | |||
| P2860 | cites work | Cholera | Q57119004 |
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| Cloning, sequencing, and transcriptional regulation of viuA, the gene encoding the ferric vibriobactin receptor of Vibrio cholerae | Q36112165 | ||
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| A Bordetella pertussis fepA homologue required for utilization of exogenous ferric enterobactin | Q48068865 | ||
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| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Vibrio cholerae | Q160821 |
| P304 | page(s) | 3419-3426 | |
| P577 | publication date | 2002-07-01 | |
| P1433 | published in | Infection and Immunity | Q6029193 |
| P1476 | title | Identification of the Vibrio cholerae enterobactin receptors VctA and IrgA: IrgA is not required for virulence | |
| P478 | volume | 70 |
| Q34514548 | Analysis of residues determining specificity of Vibrio cholerae TonB1 for its receptors |
| Q35913810 | Catechol Siderophore Transport by Vibrio cholerae |
| Q35075619 | Characterization of ferric and ferrous iron transport systems in Vibrio cholerae |
| Q34421813 | Crystal structure of HutZ, a heme storage protein from Vibrio cholerae: A structural mismatch observed in the region of high sequence conservation |
| Q27679013 | Crystal structure of periplasmic catecholate-siderophore binding protein VctP from Vibrio cholerae at 1.7 Å resolution |
| Q50000655 | Distribution of siderophore gene systems on a Vibrionaceae phylogeny: Database searches, phylogenetic analyses and evolutionary perspectives. |
| Q21559518 | Endogenous MMTV proviruses induce susceptibility to both viral and bacterial pathogens |
| Q47142170 | Excess labile carbon promotes the expression of virulence factors in coral reef bacterioplankton |
| Q36087788 | Expression of the Escherichia coli IrgA homolog adhesin is regulated by the ferric uptake regulation protein |
| Q38084924 | Fate of ferrisiderophores after import across bacterial outer membranes: different iron release strategies are observed in the cytoplasm or periplasm depending on the siderophore pathways |
| Q37253121 | FeoA and FeoC are essential components of the Vibrio cholerae ferrous iron uptake system, and FeoC interacts with FeoB. |
| Q36128277 | Genomic insights into the iron uptake mechanisms of the biomining microorganism Acidithiobacillus ferrooxidans |
| Q51748289 | Guanosine tetra- and pentaphosphate increase antibiotic tolerance by reducing reactive oxygen species production in Vibrio cholerae. |
| Q35217472 | Hierarchy of iron uptake systems: Yfu and Yiu are functional in Yersinia pestis |
| Q34435039 | HutZ is required for efficient heme utilization in Vibrio cholerae |
| Q34680976 | Iha from an Escherichia coli urinary tract infection outbreak clonal group A strain is expressed in vivo in the mouse urinary tract and functions as a catecholate siderophore receptor |
| Q38390226 | Insights in the pathogenesis and resistance of Arcobacter: A review |
| Q92283123 | Investigating host-bacterial interactions among enteric pathogens |
| Q35903368 | Involvement of multiple distinct Bordetella receptor proteins in the utilization of iron liberated from transferrin by host catecholamine stress hormones |
| Q29346621 | Iron and fur regulation in Vibrio cholerae and the role of fur in virulence |
| Q36513462 | Nonredundant Roles of Iron Acquisition Systems in Vibrio cholerae |
| Q39155761 | Presence of virulence genes, adhesion and invasion of Arcobacter butzleri |
| Q37427039 | Proteus mirabilis genes that contribute to pathogenesis of urinary tract infection: identification of 25 signature-tagged mutants attenuated at least 100-fold |
| Q34078721 | Regulation of the expression of the Vibrio parahaemolyticus peuA gene encoding an alternative ferric enterobactin receptor |
| Q34513719 | Requirement of Staphylococcus aureus ATP-binding cassette-ATPase FhuC for iron-restricted growth and evidence that it functions with more than one iron transporter. |
| Q36956153 | Staying Alive: Vibrio cholerae's Cycle of Environmental Survival, Transmission, and Dissemination |
| Q42320700 | Structure and dynamics of Type III periplasmic proteins VcFhuD and VcHutB reveal molecular basis of their distinctive ligand binding properties |
| Q40944682 | Survey of small intestinal and systemic immune responses following murine Arcobacter butzleri infection |
| Q37583364 | The BfeR regulator mediates enterobactin-inducible expression of Bordetella enterobactin utilization genes |
| Q34976807 | The Bordetella bfe system: growth and transcriptional response to siderophores, catechols, and neuroendocrine catecholamines |
| Q35529567 | The Vibrio cholerae VctPDGC system transports catechol siderophores and a siderophore-free iron ligand |
| Q36820033 | Toll-Like Receptor-4 Dependent Intestinal Gene Expression During Arcobacter Butzleri Infection of Gnotobiotic Il-10 Deficient Mice |
| Q33509883 | TonB-dependent transporters and their occurrence in cyanobacteria |
| Q36833899 | Two ABC transporter systems participate in siderophore transport in the marine pathogen Vibrio anguillarum 775 (pJM1) |
| Q36457911 | Vibrio Iron Transport: Evolutionary Adaptation to Life in Multiple Environments |
| Q28602346 | Vibrio cholerae FeoA, FeoB, and FeoC Interact To Form a Complex |
| Q38872891 | Vibrio cholerae VciB Mediates Iron Reduction |
| Q36845520 | Vibrio cholerae VciB promotes iron uptake via ferrous iron transporters |
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