scholarly article | Q13442814 |
P819 | ADS bibcode | 2014PLoSO...993558P |
P356 | DOI | 10.1371/JOURNAL.PONE.0093558 |
P932 | PMC publication ID | 3973589 |
P698 | PubMed publication ID | 24695402 |
P5875 | ResearchGate publication ID | 261327466 |
P2093 | author name string | Girija Ramakrishnan | |
Natalie Marie Pérez | |||
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The salicylate-derived mycobactin siderophores of Mycobacterium tuberculosis are essential for growth in macrophages | Q28343891 | ||
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Paralogous outer membrane proteins mediate uptake of different forms of iron and synergistically govern virulence in Francisella tularensis tularensis | Q30155300 | ||
Feo--transport of ferrous iron into bacteria. | Q30159790 | ||
The FupA/B protein uniquely facilitates transport of ferrous iron and siderophore-associated ferric iron across the outer membrane of Francisella tularensis live vaccine strain | Q30408382 | ||
The fslE homolog, FTL_0439 (fupA/B), mediates siderophore-dependent iron uptake in Francisella tularensis LVS. | Q30432826 | ||
Characterization of the siderophore of Francisella tularensis and role of fslA in siderophore production | Q30440483 | ||
fslE is necessary for siderophore-mediated iron acquisition in Francisella tularensis Schu S4 | Q30440726 | ||
Molecular evolutionary consequences of niche restriction in Francisella tularensis, a facultative intracellular pathogen | Q33466753 | ||
Modulation of iron homeostasis in macrophages by bacterial intracellular pathogens | Q33534484 | ||
Gallium disrupts iron uptake by intracellular and extracellular Francisella strains and exhibits therapeutic efficacy in a murine pulmonary infection model | Q33558904 | ||
EVALUATION OF LIVE TULAREMIA VACCINE PREPARED IN A CHEMICALLY DEFINED MEDIUM. | Q33696706 | ||
Iron metabolism in pathogenic bacteria. | Q33920195 | ||
Legionella pneumophila feoAB promotes ferrous iron uptake and intracellular infection | Q34132560 | ||
Virulent and avirulent strains of Francisella tularensis prevent acidification and maturation of their phagosomes and escape into the cytoplasm in human macrophages | Q34145815 | ||
Iron and metal regulation in bacteria | Q34205005 | ||
Bacillus anthracis requires siderophore biosynthesis for growth in macrophages and mouse virulence | Q34294181 | ||
Role of iron in regulation of virulence genes | Q34363235 | ||
The membrane protein FeoB contains an intramolecular G protein essential for Fe(II) uptake in bacteria | Q34415897 | ||
Iron and microbial infection | Q34650077 | ||
Identification of Francisella tularensis genes affected by iron limitation | Q34721354 | ||
Contribution of the Shigella flexneri Sit, Iuc, and Feo iron acquisition systems to iron acquisition in vitro and in cultured cells | Q34853708 | ||
The labile iron pool: characterization, measurement, and participation in cellular processes(1). | Q34956696 | ||
Construction and characterization of an attenuated purine auxotroph in a Francisella tularensis live vaccine strain | Q34975711 | ||
Major role for FeoB in Campylobacter jejuni ferrous iron acquisition, gut colonization, and intracellular survival | Q35073883 | ||
Innate and adaptive immune responses to an intracellular bacterium, Francisella tularensis live vaccine strain | Q35090016 | ||
Potential source of Francisella tularensis live vaccine strain attenuation determined by genome comparison | Q35220372 | ||
Growth of Francisella tularensis LVS in macrophages: the acidic intracellular compartment provides essential iron required for growth | Q35403392 | ||
Contribution of TonB- and Feo-mediated iron uptake to growth of Salmonella typhimurium in the mouse | Q35528349 | ||
Genome-wide identification of Francisella tularensis virulence determinants | Q35913441 | ||
Iron in infection and immunity | Q36913895 | ||
Live vaccine strain of Francisella tularensis: infection and immunity in mice | Q36967503 | ||
The FeoC protein leads to high cellular levels of the Fe(II) transporter FeoB by preventing FtsH protease regulation of FeoB in Salmonella enterica | Q37035927 | ||
FeoA and FeoC are essential components of the Vibrio cholerae ferrous iron uptake system, and FeoC interacts with FeoB. | Q37253121 | ||
Reintroduction of two deleted virulence loci restores full virulence to the live vaccine strain of Francisella tularensis | Q37274784 | ||
Characterization of rationally attenuated Francisella tularensis vaccine strains that harbor deletions in the guaA and guaB genes | Q37276296 | ||
Intracellular biology and virulence determinants of Francisella tularensis revealed by transcriptional profiling inside macrophages | Q37353316 | ||
The 58-kilodalton major virulence factor of Francisella tularensis is required for efficient utilization of iron | Q37355882 | ||
Iron metabolism: microbes, mouse, and man. | Q37624574 | ||
Comparison of Francisella tularensis genomes reveals evolutionary events associated with the emergence of human pathogenic strains. | Q38606114 | ||
Disruption of mycobactin biosynthesis leads to attenuation of Mycobacterium tuberculosis for growth and virulence | Q39136936 | ||
Acquisition of Mn(II) in addition to Fe(II) is required for full virulence of Salmonella enterica serovar Typhimurium | Q39663606 | ||
An attenuated strain of the facultative intracellular bacterium Francisella tularensis can escape the phagosome of monocytic cells | Q39913009 | ||
Characterization of the ferrous iron uptake system of Escherichia coli | Q39937148 | ||
The Yfe and Feo transporters are involved in microaerobic growth and virulence of Yersinia pestis in bubonic plague | Q41409444 | ||
Analysis of the multimer resolution system encoded by the parCBA operon of broad-host-range plasmid RP4. | Q42599469 | ||
Characterization of fig operon mutants of Francisella novicida U112. | Q42600585 | ||
Francisella novicida LPS has greater immunobiological activity in mice than F. tularensis LPS, and contributes to F. novicida murine pathogenesis | Q45231795 | ||
The FeoA protein is necessary for the FeoB transporter to import ferrous iron | Q50026110 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Francisella tularensis | Q1003460 |
attenuated vaccine | Q1810913 | ||
P304 | page(s) | e93558 | |
P577 | publication date | 2014-04-02 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | The reduced genome of the Francisella tularensis live vaccine strain (LVS) encodes two iron acquisition systems essential for optimal growth and virulence | |
P478 | volume | 9 |
Q38673867 | Bacterial ferrous iron transport: the Feo system |
Q36084539 | Burkholderia Diffusible Signal Factor Signals to Francisella novicida To Disperse Biofilm and Increase Siderophore Production |
Q36106837 | Comparative Transcriptional Analyses of Francisella tularensis and Francisella novicida |
Q36439089 | Gallium Potentiates the Antibacterial Effect of Gentamicin against Francisella tularensis |
Q30353186 | Iron and Virulence in Francisella tularensis. |
Q89547519 | Iron trafficking in patients with Indian Post kala-azar dermal leishmaniasis |
Q38920767 | Nramp1 and NrampB Contribute to Resistance against Francisella in Dictyostelium |
Q35668833 | Strategies of Intracellular Pathogens for Obtaining Iron from the Environment |
Q57139247 | Structural and functional studies of the metalloregulator Fur identify a promoter-binding mechanism and its role in virulence |
Q55267074 | The Ability to Acquire Iron Is Inversely Related to Virulence and the Protective Efficacy of Francisella tularensis Live Vaccine Strain. |
Q30277263 | Two parallel pathways for ferric and ferrous iron acquisition support growth and virulence of the intracellular pathogen Francisella tularensis Schu S4 |
Q45072111 | Zinc acquisition mechanisms differ between environmental and virulent Francisella species. |
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