scholarly article | Q13442814 |
P2093 | author name string | Yifan Zhang | |
Sambuddha Sen | |||
David Giedroc | |||
P2860 | cites work | Catecholamine Metabolism: A Contemporary View with Implications for Physiology and Medicine | Q22242284 |
A small RNA regulates the expression of genes involved in iron metabolism in Escherichia coli | Q24536169 | ||
Fur and the novel regulator YqjI control transcription of the ferric reductase gene yqjH in Escherichia coli | Q24600656 | ||
Enterobactin: an archetype for microbial iron transport | Q24683689 | ||
The neutrophil lipocalin NGAL is a bacteriostatic agent that interferes with siderophore-mediated iron acquisition | Q27640027 | ||
The Staphylococcus aureus Siderophore Receptor HtsA Undergoes Localized Conformational Changes to Enclose Staphyloferrin A in an Arginine-rich Binding Pocket | Q27659711 | ||
Molecular basis for manganese sequestration by calprotectin and roles in the innate immune response to invading bacterial pathogens | Q27676532 | ||
Structural basis for iron piracy by pathogenic Neisseria | Q27677223 | ||
Structures of Streptococcus pneumoniae PiaA and Its Complex with Ferrichrome Reveal Insights into the Substrate Binding and Release of High Affinity Iron Transporters | Q27679699 | ||
Structural insight into the role of the Ton complex in energy transduction | Q27728101 | ||
Crystal structure of the outer membrane active transporter FepA from Escherichia coli | Q27766470 | ||
Transport activity of FhuA, FhuC, FhuD, and FhuB derivatives in a system free of polar effects, and stoichiometry of components involved in ferrichrome uptake | Q28272675 | ||
Global transcriptional response of Caulobacter crescentus to iron availability | Q29346524 | ||
Global analysis of the Bacillus subtilis Fur regulon and the iron starvation stimulon | Q29346686 | ||
Structure, function and binding selectivity and stereoselectivity of siderophore-iron outer membrane transporters | Q30155209 | ||
Two parallel pathways for ferric and ferrous iron acquisition support growth and virulence of the intracellular pathogen Francisella tularensis Schu S4 | Q30277263 | ||
Imaging mass spectrometry for assessing temporal proteomics: analysis of calprotectin in Acinetobacter baumannii pulmonary infection | Q30440550 | ||
Nutritional immunity. Escape from bacterial iron piracy through rapid evolution of transferrin | Q30653243 | ||
Catecholamine inotropes as growth factors for Staphylococcus epidermidis and other coagulase-negative staphylococci | Q31868365 | ||
Helicobacter pylori ribBA-mediated riboflavin production is involved in iron acquisition. | Q32084487 | ||
Elucidation of the mechanism by which catecholamine stress hormones liberate iron from the innate immune defense proteins transferrin and lactoferrin | Q33586001 | ||
A bacterial iron exporter for maintenance of iron homeostasis | Q33718576 | ||
Binding of ferric enterobactin by the Escherichia coli periplasmic protein FepB | Q33787429 | ||
Sulfide Homeostasis and Nitroxyl Intersect via Formation of Reactive Sulfur Species in Staphylococcus aureus | Q33823070 | ||
Concerted loop motion triggers induced fit of FepA to ferric enterobactin | Q33826798 | ||
Investigation of the human pathogen Acinetobacter baumannii under iron limiting conditions | Q33826851 | ||
Acinetobacter baumannii response to host-mediated zinc limitation requires the transcriptional regulator Zur | Q33899575 | ||
Staphylococcus aureus exhibits heterogeneous siderophore production within the vertebrate host | Q90702219 | ||
Uropathogenic enterobacteria use the yersiniabactin metallophore system to acquire nickel | Q90946738 | ||
The human innate immune protein calprotectin induces iron starvation responses in Pseudomonas aeruginosa | Q90949188 | ||
Bacterial ABC transporters of iron containing compounds | Q91071140 | ||
Group A Streptococcus co-ordinates manganese import and iron efflux in response to hydrogen peroxide stress | Q91167698 | ||
The structure of the bacterial iron-catecholate transporter Fiu suggests that it imports substrates via a two-step mechanism | Q91233855 | ||
The FeoC [4Fe-4S] Cluster Is Redox-Active and Rapidly Oxygen-Sensitive | Q91239373 | ||
Bacterial sensors define intracellular free energies for correct enzyme metalation | Q91259853 | ||
Host monitoring of quorum sensing during Pseudomonas aeruginosa infection | Q92131714 | ||
Bacillus subtilis FolE is sustained by the ZagA zinc metallochaperone and the alarmone ZTP under conditions of zinc deficiency | Q92316212 | ||
Targeting Mobilization of Ferrous Iron in Pseudomonas aeruginosa Infection with an Iron(II)-Caged LpxC Inhibitor | Q92365535 | ||
Exploring Iron Withholding by the Innate Immune Protein Human Calprotectin | Q92414895 | ||
Multi-metal Restriction by Calprotectin Impacts De Novo Flavin Biosynthesis in Acinetobacter baumannii | Q92580126 | ||
The complex of ferric-enterobactin with its transporter from Pseudomonas aeruginosa suggests a two-site model | Q92624208 | ||
The heme-sensitive regulator SbnI has a bifunctional role in staphyloferrin B production by Staphylococcus aureus | Q92732842 | ||
Mechanistic Insights into the Metal-Dependent Activation of ZnII-Dependent Metallochaperones | Q93080527 | ||
Chemistry and biology of siderophores | Q34109151 | ||
Salmonella acquires ferrous iron from haemophagocytic macrophages | Q34161257 | ||
The siderophore-interacting protein YqjH acts as a ferric reductase in different iron assimilation pathways of Escherichia coli | Q34234126 | ||
Specificity of Staphyloferrin B Recognition by the SirA Receptor from Staphylococcus aureus | Q34251178 | ||
Specificity of metal sensing: iron and manganese homeostasis in Bacillus subtilis. | Q34317275 | ||
Siderocalins: Siderophore binding proteins evolved for primary pathogen host defense | Q34319471 | ||
Pseudomonas aeruginosa adapts its iron uptake strategies in function of the type of infections | Q34389170 | ||
Enhancement of in vitro growth of pathogenic bacteria by norepinephrine: importance of inoculum density and role of transferrin | Q34718907 | ||
Iron enzyme ribulose-5-phosphate 3-epimerase in Escherichia coli is rapidly damaged by hydrogen peroxide but can be protected by manganese | Q34750004 | ||
The role of electrostatics in siderophore recognition by the immunoprotein Siderocalin | Q34893809 | ||
Role of receptor proteins for enterobactin and 2,3-dihydroxybenzoylserine in virulence of Salmonella enterica | Q34940802 | ||
Metalloproteins and metal sensing | Q34997092 | ||
Zinc piracy as a mechanism of Neisseria meningitidis for evasion of nutritional immunity | Q35034259 | ||
Major role for FeoB in Campylobacter jejuni ferrous iron acquisition, gut colonization, and intracellular survival | Q35073883 | ||
Characterization of ferric and ferrous iron transport systems in Vibrio cholerae | Q35075619 | ||
Staphylococcus aureus transporters Hts, Sir, and Sst capture iron liberated from human transferrin by Staphyloferrin A, Staphyloferrin B, and catecholamine stress hormones, respectively, and contribute to virulence | Q35075837 | ||
The Bradyrhizobium japonicum frcB gene encodes a diheme ferric reductase | Q35139657 | ||
Iron Transport in Escherichia coli: Roles of Energy-dependent Uptake and 2,3-Dihydroxybenzoylserine | Q35155383 | ||
Iron acquisition and regulation in Campylobacter jejuni | Q35277029 | ||
Catechol Siderophore Transport by Vibrio cholerae | Q35913810 | ||
Mononuclear iron enzymes are primary targets of hydrogen peroxide stress | Q35939868 | ||
Acinetobacter baumannii Genes Required for Bacterial Survival during Bloodstream Infection. | Q36052630 | ||
Promoter and operator determinants for fur-mediated iron regulation in the bidirectional fepA-fes control region of the Escherichia coli enterobactin gene system | Q36108703 | ||
Amonabactin, a novel tryptophan- or phenylalanine-containing phenolate siderophore in Aeromonas hydrophila | Q36175468 | ||
Siderophore-mediated uptake of iron in Azotobacter vinelandii | Q36301882 | ||
Riboflavin biosynthesis is associated with assimilatory ferric reduction and iron acquisition by Campylobacter jejuni | Q36313529 | ||
The siderophore yersiniabactin binds copper to protect pathogens during infection | Q36692680 | ||
Functional specialization within the Fur family of metalloregulators | Q36704730 | ||
Metal selectivity by the virulence-associated yersiniabactin metallophore system | Q36732678 | ||
Small RNAs controlling iron metabolism | Q36769261 | ||
Bacteria in an intense competition for iron: Key component of the Campylobacter jejuni iron uptake system scavenges enterobactin hydrolysis product | Q36957225 | ||
Influence of iron on growth, morphology, outer membrane protein composition, and synthesis of siderophores in Campylobacter jejuni. | Q37012045 | ||
The innate immune protein calprotectin promotes Pseudomonas aeruginosa and Staphylococcus aureus interaction. | Q37017741 | ||
Role of pyocyanin in the acquisition of iron from transferrin. | Q37054257 | ||
Microbial endocrinology: how stress influences susceptibility to infection | Q37055720 | ||
Ferrous iron is a significant component of bioavailable iron in cystic fibrosis airways | Q37120257 | ||
FeoA and FeoC are essential components of the Vibrio cholerae ferrous iron uptake system, and FeoC interacts with FeoB. | Q37253121 | ||
Bacterial ferrous iron transport: the Feo system | Q38673867 | ||
Iron Uptake Oxidoreductase (IruO) Uses a Flavin Adenine Dinucleotide Semiquinone Intermediate for Iron-Siderophore Reduction. | Q38809196 | ||
Vibrio cholerae VciB Mediates Iron Reduction | Q38872891 | ||
Siderophores in Iron Metabolism: From Mechanism to Therapy Potential | Q39003164 | ||
Ferrous iron efflux systems in bacteria | Q39366694 | ||
Regulation of divergent transcription from the iron-responsive fepB-entC promoter-operator regions in Escherichia coli | Q39517788 | ||
Iron transport in Escherichia coli K-12. 2,3-Dihydroxybenzoate-promoted iron uptake | Q39830743 | ||
Ferredoxins and flavodoxins of bacteria | Q39919097 | ||
Roles of the Yfe and Feo transporters of Yersinia pestis in iron uptake and intracellular growth | Q40186206 | ||
The Pseudomonas aeruginosa PrrF Small RNAs Regulate Iron Homeostasis during Acute Murine Lung Infection | Q40295897 | ||
Iron transport in Escherichia coli: uptake and modification of ferrichrome. | Q40335822 | ||
Iron and Fur in the life cycle of the zoonotic pathogen Vibrio vulnificus. | Q40635202 | ||
Biosynthesis of a broad-spectrum nicotianamine-like metallophore in Staphylococcus aureus. | Q40657556 | ||
Functional analysis of an feoB mutant in Clostridium perfringens strain 13. | Q40675043 | ||
Nutritional immunity. Host's attempt to withold iron from microbial invaders | Q40899201 | ||
Chemical Synthesis of Staphyloferrin B Affords Insight into the Molecular Structure, Iron Chelation, and Biological Activity of a Polycarboxylate Siderophore Deployed by the Human Pathogen Staphylococcus aureus | Q41192825 | ||
Enterobacteria secrete an inhibitor of Pseudomonas virulence during clinical bacteriuria | Q41355584 | ||
Bacterial iron transport: mechanisms, genetics, and regulation. | Q41691207 | ||
Role of ferredoxin and flavodoxins in Bacillus subtilis fatty acid desaturation | Q41819055 | ||
Regulation of iron-sulphur cluster homeostasis through transcriptional control of the Isc pathway by [2Fe-2S]-IscR in Escherichia coli | Q41869989 | ||
Identification and characterization of a periplasmic trilactone esterase, Cee, revealed unique features of ferric enterobactin acquisition in Campylobacter | Q41876881 | ||
Calcium ion gradients modulate the zinc affinity and antibacterial activity of human calprotectin | Q41889308 | ||
Identification and characterization of a new ferric enterobactin receptor, CfrB, in Campylobacter | Q41959393 | ||
TolC is involved in enterobactin efflux across the outer membrane of Escherichia coli | Q42057903 | ||
PfeT, a P1B4 -type ATPase, effluxes ferrous iron and protects Bacillus subtilis against iron intoxication | Q42117206 | ||
High-affinity manganese coordination by human calprotectin is calcium-dependent and requires the histidine-rich site formed at the dimer interface | Q42127170 | ||
Specific TonB-ExbB-ExbD energy transduction systems required for ferric enterobactin acquisition in Campylobacter | Q42148743 | ||
Catecholamines promote the expression of virulence and oxidative stress genes in Porphyromonas gingivalis | Q42240095 | ||
Interactions of the periplasmic binding protein CeuE with Fe(III) n-LICAM4- siderophore analogues of varied linker length | Q42292639 | ||
Magnetic circular dichroism studies of iron(ii) binding to human calprotectin | Q42314747 | ||
In vitro characterization of salmochelin and enterobactin trilactone hydrolases IroD, IroE, and Fes. | Q42532144 | ||
Campylobacter jejuni ferric-enterobactin receptor CfrA is TonB3 dependent and mediates iron acquisition from structurally different catechol siderophores | Q42573668 | ||
Molecular, antigenic, and functional characteristics of ferric enterobactin receptor CfrA in Campylobacter jejuni | Q42687963 | ||
The Response of Acinetobacter baumannii to Zinc Starvation. | Q42735239 | ||
Human calprotectin is an iron-sequestering host-defense protein | Q43246197 | ||
Fur-DNA interactions at the bidirectional fepDGC-entS promoter region in Escherichia coli. | Q44169818 | ||
A two [4Fe-4S]-cluster-containing ferredoxin as an alternative electron donor for 2-hydroxyglutaryl-CoA dehydratase from Acidaminococcus fermentans | Q44334573 | ||
Cepabactin from Pseudomonas cepacia, a new type of siderophore | Q44591008 | ||
Bacterial iron transport: coordination properties of azotobactin, the highly fluorescent siderophore of Azotobacter vinelandii | Q44750000 | ||
FhuF, part of a siderophore-reductase system | Q44751422 | ||
FieF (YiiP) from Escherichia coli mediates decreased cellular accumulation of iron and relieves iron stress. | Q45153854 | ||
Catecholamine norepinephrine diminishes lung epithelial cell adhesion of Streptococcus pneumoniae by binding iron | Q46126921 | ||
In vivo bioluminescence imaging of labile iron accumulation in a murine model of Acinetobacter baumannii infection. | Q46249324 | ||
Functions of the siderophore esterases IroD and IroE in iron-salmochelin utilization | Q46586809 | ||
Pseudomonas aeruginosa zinc uptake in chelating environment is primarily mediated by the metallophore pseudopaline | Q47159356 | ||
Sequential induction of Fur-regulated genes in response to iron limitation in Bacillus subtilis | Q47407205 | ||
Transcriptional response of Clostridium difficile to low iron conditions. | Q47699254 | ||
Determination of the Molecular Structures of Ferric Enterobactin and Ferric Enantioenterobactin Using Racemic Crystallography | Q47731915 | ||
Two Catechol Siderophores, Acinetobactin and Amonabactin, Are Simultaneously Produced by Aeromonas salmonicida subsp. salmonicida Sharing Part of the Biosynthetic Pathway | Q47902946 | ||
Computational modeling and preliminary iroN, fepA, and cirA gene expression in Salmonella Enteritidis under iron-deficiency-induced conditions | Q50001476 | ||
The FeoA protein is necessary for the FeoB transporter to import ferrous iron | Q50026110 | ||
Pneumonia infection in mice reveals the involvement of the feoA gene in the pathogenesis of Acinetobacter baumannii. | Q50046137 | ||
Independent and cooperative regulation of staphylopine biosynthesis and trafficking by Fur and Zur. | Q50065201 | ||
Production by Salmonella typhimurium of 2,3-Dihydroxybenzoylserine, and Its Stimulation of Growth in Human Serum | Q50241250 | ||
Human calprotectin affects the redox speciation of iron. | Q50611121 | ||
A novel Porphyromonas gingivalis FeoB plays a role in manganese accumulation. | Q51462032 | ||
Mechanistic insights into staphylopine-mediated metal acquisition. | Q52341080 | ||
Iron and Zinc Regulate Expression of a Putative ABC Metal Transporter in Corynebacterium diphtheriae. | Q52366712 | ||
Esterase-Catalyzed Siderophore Hydrolysis Activates an Enterobactin-Ciprofloxacin Conjugate and Confers Targeted Antibacterial Activity. | Q53762102 | ||
Microbial metalloproteomes are largely uncharacterized. | Q54382380 | ||
Escherichia coli periplasmic protein FepB binds ferrienterobactin. | Q54609967 | ||
Zinc through the three domains of life. | Q55042662 | ||
Toward a mechanistic understanding of Feo-mediated ferrous iron uptake | Q57751873 | ||
Identification of a Positively Charged Platform in Staphylococcus aureus HtsA That Is Essential for Ferric Staphyloferrin A Transport | Q58051094 | ||
Mimicking salmochelin S1 and the interactions of its Fe(III) complex with periplasmic iron siderophore binding proteins CeuE and VctP | Q58121053 | ||
The human iron-proteome | Q58483982 | ||
Crystal Structure of the Siderophore Binding Protein BauB Bound to an Unusual 2:1 Complex Between Acinetobactin and Ferric Iron | Q58575359 | ||
Metal Chelation and Inhibition of Bacterial Growth in Tissue Abscesses | Q59004220 | ||
Preacinetobactin not acinetobactin is essential for iron uptake by the BauA transporter of the pathogen | Q60300688 | ||
Identification of enterobactin and linear dihydroxybenzoylserine compounds by HPLC and ion spray mass spectrometry (LC/MS and MS/MS) | Q67902079 | ||
Dihydroxybenzoylserine--a siderophore for E. coli | Q68416101 | ||
Transferrin binding of Al3+ and Fe3+ | Q69746888 | ||
Measurement of total and organ-specific norepinephrine kinetics in humans | Q71415961 | ||
Calprotectin-mediated zinc chelation as a biostatic mechanism in host defence | Q71541542 | ||
Reduction of exogenous ferric iron by a surface-associated ferric reductase of Listeria spp | Q71722983 | ||
Iron acquisition and virulence in Helicobacter pylori: a major role for FeoB, a high-affinity ferrous iron transporter | Q74130037 | ||
A PerR-regulated metal transporter (PmtA) is an interface between oxidative stress and metal homeostasis in Streptococcus pyogenes | Q79613325 | ||
Pyochelin, a siderophore of Pseudomonas aeruginosa: physicochemical characterization of the iron(III), copper(II) and zinc(II) complexes | Q83287736 | ||
Effect of iron limitation and fur gene inactivation on the transcriptional profile of the strict anaerobe Clostridium acetobutylicum | Q84068270 | ||
Mechanisms of lactone hydrolysis in neutral and alkaline conditions | Q86937556 | ||
Consequences of the iron-dependent formation of ferredoxin and flavodoxin on photosynthesis and nitrogen fixation on Anabaena strains | Q87091039 | ||
Overview on the Bacterial Iron-Riboflavin Metabolic Axis | Q90352134 | ||
IroT/MavN Is a Legionella Transmembrane Fe(II) Transporter: Metal Selectivity and Translocation Kinetics Revealed by in Vitro Real-Time Transport | Q90559084 | ||
P577 | publication date | 2020-03-16 | |
P1433 | published in | ChemBioChem | Q634395 |
P1476 | title | Iron Acquisition by Bacterial Pathogens: Beyond tris-Catecholate Complexes |
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