| scholarly article | Q13442814 |
| review article | Q7318358 |
| P356 | DOI | 10.1038/NRM1015 |
| P698 | PubMed publication ID | 12563288 |
| P50 | author | Mark S.P. Sansom | Q58330851 |
| P2093 | author name string | José D Faraldo-Gómez | |
| P2860 | cites work | Crystal structure of the antibiotic albomycin in complex with the outer membrane transporter FhuA | Q27624891 |
| Crystal structure of the dimeric C-terminal domain of TonB reveals a novel fold | Q27631524 | ||
| Active transport of an antibiotic rifamycin derivative by the outer-membrane protein FhuA | Q27635214 | ||
| X-ray crystallographic structures of the Escherichia coli periplasmic protein FhuD bound to hydroxamate-type siderophores and the antibiotic albomycin | Q27637443 | ||
| Structural basis of gating by the outer membrane transporter FecA | Q27638127 | ||
| The E. coli BtuCD structure: a framework for ABC transporter architecture and mechanism | Q27638959 | ||
| Crystal structures explain functional properties of two E. coli porins | Q27642119 | ||
| Structural basis for sugar translocation through maltoporin channels at 3.1 A resolution | Q27730332 | ||
| Siderophore-mediated iron transport: crystal structure of FhuA with bound lipopolysaccharide | Q27766352 | ||
| Crystal structure of the outer membrane active transporter FepA from Escherichia coli | Q27766470 | ||
| FepA with globular domain deletions lacks activity | Q30165218 | ||
| Stability studies of FhuA, a two-domain outer membrane protein from Escherichia coli. | Q30168216 | ||
| Exchangeability of N termini in the ligand-gated porins of Escherichia coli | Q30168335 | ||
| beta-Barrel membrane proteins | Q30168767 | ||
| Structure and function of bacterial outer membrane proteins: barrels in a nutshell | Q30168847 | ||
| The beta-barrel domain of FhuADelta5-160 is sufficient for TonB-dependent FhuA activities of Escherichia coli | Q30175354 | ||
| Beta-barrel proteins from bacterial outer membranes: structure, function and refolding | Q30175375 | ||
| Ligand-induced conformational change in the ferric enterobactin receptor FepA as studied by site-directed spin labeling and time-domain ESR. | Q30176145 | ||
| General and specific porins from bacterial outer membranes | Q30176173 | ||
| Site-directed disulfide bonding reveals an interaction site between energy-coupling protein TonB and BtuB, the outer membrane cobalamin transporter | Q30304274 | ||
| Substrate-induced exposure of an energy-coupling motif of a membrane transporter | Q30305433 | ||
| Sequence changes in the ton box region of BtuB affect its transport activities and interaction with TonB protein | Q30306230 | ||
| Transport-defective mutations alter the conformation of the energy-coupling motif of an outer membrane transporter | Q30308262 | ||
| Identification of the periplasmic cobalamin-binding protein BtuF of Escherichia coli | Q30308529 | ||
| A site-directed spin-labeling study of ligand-induced conformational change in the ferric enterobactin receptor, FepA. | Q30420006 | ||
| The proton motive force drives the outer membrane transport of cobalamin in Escherichia coli | Q30451825 | ||
| Vitamin B12 transport in Escherichia coli: energy coupling between membranes | Q30451958 | ||
| ExbB acts as a chaperone-like protein to stabilize TonB in the cytoplasm. | Q54660030 | ||
| Sequence-imposed structural constraints in the TonB protein of E. coli. | Q54772885 | ||
| Transmembrane Signaling across the Ligand-Gated FhuA Receptor | Q56838719 | ||
| The conserved proline-rich motif is not essential for energy transduction by Escherichia coli TonB protein | Q72738272 | ||
| Conserved residues Ser(16) and His(20) and their relative positioning are essential for TonB activity, cross-linking of TonB with ExbB, and the ability of TonB to respond to proton motive force | Q73213793 | ||
| Iron-free pyoverdin binds to its outer membrane receptor FpvA in Pseudomonas aeruginosa: a new mechanism for membrane iron transport | Q73341438 | ||
| Cell envelope signaling in Escherichia coli. Ligand binding to the ferrichrome-iron receptor fhua promotes interaction with the energy-transducing protein TonB | Q73836174 | ||
| Iron regulates transcription of the Escherichia coli ferric citrate transport genes directly and through the transcription initiation proteins | Q74516931 | ||
| Protonmotive force, ExbB and ligand-bound FepA drive conformational changes in TonB | Q77345045 | ||
| Recycling of pyoverdin on the FpvA receptor after ferric pyoverdin uptake and dissociation in Pseudomonas aeruginosa | Q77556018 | ||
| Pumping iron through cell membranes | Q77800558 | ||
| Copurification of the FpvA ferric pyoverdin receptor of Pseudomonas aeruginosa with its iron-free ligand: implications for siderophore-mediated iron transport | Q30738991 | ||
| Bacterial solutions to the iron-supply problem | Q33594207 | ||
| Binding of ferric enterobactin by the Escherichia coli periplasmic protein FepB | Q33787429 | ||
| Studies and syntheses of siderophores, microbial iron chelators, and analogs as potential drug delivery agents | Q33818504 | ||
| Microbial iron transport via a siderophore shuttle: a membrane ion transport paradigm | Q33918352 | ||
| Iron metabolism in pathogenic bacteria. | Q33920195 | ||
| Control of the ferric citrate transport system of Escherichia coli: mutations in region 2.1 of the FecI extracytoplasmic-function sigma factor suppress mutations in the FecR transmembrane regulatory protein | Q33995191 | ||
| Characterization of in vitro interactions between a truncated TonB protein from Escherichia coli and the outer membrane receptors FhuA and FepA. | Q34011314 | ||
| Siderophores: Structure and Function of Microbial Iron Transport Compounds | Q34058117 | ||
| The pyoverdin receptor FpvA, a TonB-dependent receptor involved in iron uptake by Pseudomonas aeruginosa (review). | Q34112761 | ||
| Active transport of iron and siderophore antibiotics | Q34122249 | ||
| Molecular dynamics simulations in biology | Q34239646 | ||
| ABC transporter-mediated uptake of iron, siderophores, heme and vitamin B12. | Q34290799 | ||
| TonB interacts with nonreceptor proteins in the outer membrane of Escherichia coli | Q34307222 | ||
| Structural biology of bacterial iron uptake systems | Q34564615 | ||
| Molecular dynamics simulations | Q34604747 | ||
| Molecular dynamics simulations of biomolecules | Q34799927 | ||
| Identification of TonB homologs in the family Enterobacteriaceae and evidence for conservation of TonB-dependent energy transduction complexes | Q35603383 | ||
| Regions of Escherichia coli TonB and FepA proteins essential for in vivo physical interactions | Q35623484 | ||
| TonB and the gram-negative dilemma | Q37867581 | ||
| Surface signaling in ferric citrate transport gene induction: interaction of the FecA, FecR, and FecI regulatory proteins | Q39498751 | ||
| In vivo synthesis of the periplasmic domain of TonB inhibits transport through the FecA and FhuA iron siderophore transporters of Escherichia coli | Q39527357 | ||
| Surface loop motion in FepA. | Q39680043 | ||
| ExbB and ExbD do not function independently in TonB-dependent energy transduction | Q39680286 | ||
| Energy-coupled transport across the outer membrane of Escherichia coli: ExbB binds ExbD and TonB in vitro, and leucine 132 in the periplasmic region and aspartate 25 in the transmembrane region are important for ExbD activity | Q39841349 | ||
| In vivo inhibition of TonB-dependent processes by a TonB box consensus pentapeptide | Q39932976 | ||
| Membrane topology of the Escherichia coli ExbD protein | Q39935883 | ||
| Surface signaling: novel transcription initiation mechanism starting from the cell surface | Q41468415 | ||
| Mutations in the Escherichia coli receptor FepA reveal residues involved in ligand binding and transport | Q43725769 | ||
| Close before opening. | Q43901710 | ||
| Quantification of known components of the Escherichia coli TonB energy transduction system: TonB, ExbB, ExbD and FepA. | Q43967562 | ||
| TonB-dependent iron acquisition: mechanisms of siderophore-mediated active transport | Q47919308 | ||
| Ligand-induced conformational change in the ferrichrome-iron receptor of Escherichia coli K-12. | Q50192343 | ||
| Structure and function of X-Pro dipeptide repeats in the TonB proteins of Salmonella typhimurium and Escherichia coli. | Q50192460 | ||
| Partial suppression of an Escherichia coli TonB transmembrane domain mutation (delta V17) by a missense mutation in ExbB. | Q54198381 | ||
| Ligand-specific opening of a gated-porin channel in the outer membrane of living bacteria. | Q54565627 | ||
| Transcription induction of the ferric citrate transport genes via the N-terminus of the FecA outer membrane protein, the Ton system and the electrochemical potential of the cytoplasmic membrane. | Q54574154 | ||
| Activity domains of the TonB protein. | Q54659941 | ||
| P433 | issue | 2 | |
| P921 | main subject | Gram-negative bacteria | Q632006 |
| P304 | page(s) | 105-116 | |
| P577 | publication date | 2003-02-01 | |
| P1433 | published in | Nature Reviews Molecular Cell Biology | Q1573120 |
| P1476 | title | Acquisition of siderophores in gram-negative bacteria | |
| P478 | volume | 4 |
| Q40584829 | A dominant-negative fur mutation in Bradyrhizobium japonicum |
| Q48082362 | A mutation in an exbD gene reduces tagetitoxin production by Pseudomonas syringae pv. tagetis. |
| Q37583219 | A nonribosomal peptide synthetase with a novel domain organization is essential for siderophore biosynthesis in Vibrio anguillarum |
| Q37398323 | Absence of functional Hfe protects mice from invasive Salmonella enterica serovar Typhimurium infection via induction of lipocalin-2. |
| Q36410933 | All Three TonB Systems Are Required for Vibrio vulnificus CMCP6 Tissue Invasiveness by Controlling Flagellum Expression |
| Q41452503 | An induced fit conformational change underlies the binding mechanism of the heme transport proteobacteria-protein HemS. |
| Q41355138 | Anaerobic utilization of Fe(III)-xenosiderophores among Bacteroides species and the distinct assimilation of Fe(III)-ferrichrome by Bacteroides fragilis within the genus. |
| Q35096466 | Antiparallel and interlinked control of cellular iron levels by the Irr and RirA regulators of Agrobacterium tumefaciens |
| Q40983112 | Bacterial degradation of cyanide and its metal complexes under alkaline conditions. |
| Q91362713 | Bacterial siderophores in community and host interactions |
| Q84582251 | Burkholderia cepacia XXVI siderophore with biocontrol capacity against Colletotrichum gloeosporioides |
| Q62516824 | Capillary electrophoresis-mass spectrometry of citrus endophytic bacteria siderophores |
| Q34447422 | Catecholate siderophores protect bacteria from pyochelin toxicity |
| Q34401001 | Characterization of a Hemophore-like Protein from Porphyromonas gingivalis |
| Q42103171 | Characterization of putative virulence genes on the related RepFIB plasmids harbored by Cronobacter spp |
| Q30440483 | Characterization of the siderophore of Francisella tularensis and role of fslA in siderophore production |
| Q31037153 | Characterizing the host and symbiont proteomes in the association between the Bobtail squid, Euprymna scolopes, and the bacterium, Vibrio fischeri |
| Q58805329 | Chitosan–genipin film, a sustainable methodology for wine preservation |
| Q38797030 | Cobalamin riboswitches exhibit a broad range of ability to discriminate between methylcobalamin and adenosylcobalamin |
| Q79854439 | Collision-activated dissociation, infrared multiphoton dissociation, and electron capture dissociation of the Bacillus anthracis siderophore petrobactin and its metal ion complexes |
| Q36704511 | Computer simulations of ABC transporter components |
| Q30152687 | Confined Mobility of TonB and FepA in Escherichia coli Membranes |
| Q53578699 | Crystal structure of the heme-IsdC complex, the central conduit of the Isd iron/heme uptake system in Staphylococcus aureus. |
| Q41454932 | Crystallization and preliminary X-ray diffraction analysis of the haem-binding protein HemS from Yersinia enterocolitica. |
| Q30163893 | Defined inactive FecA derivatives mutated in functional domains of the outer membrane transport and signaling protein of Escherichia coli K-12. |
| Q30311199 | Differential substrate-induced signaling through the TonB-dependent transporter BtuB. |
| Q38025667 | Dps biomineralizing proteins: multifunctional architects of nature |
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| Q46425223 | Ecotype diversification of an abundant Roseobacter lineage |
| Q46378854 | Effect of metal binding and posttranslational lysine carboxylation on the activity of recombinant hydantoinase |
| Q93273309 | Emergence of Ferrichelatase Activity in a Siderophore-Binding Protein Supports an Iron Shuttle in Bacteria |
| Q26998396 | Engineering rhizobial bioinoculants: a strategy to improve iron nutrition |
| Q46552963 | Facile and Versatile Chemoenzymatic Synthesis of Enterobactin Analogues and Applications in Bacterial Detection |
| Q89820544 | FeGenie: A Comprehensive Tool for the Identification of Iron Genes and Iron Gene Neighborhoods in Genome and Metagenome Assemblies |
| Q36101152 | FmvB: A Francisella tularensis Magnesium-Responsive Outer Membrane Protein that Plays a Role in Virulence |
| Q30159577 | Functional and phylogenetic properties of the pore-forming beta-barrel transporters of the Omp85 family |
| Q35232011 | Functional role of PilA in iron acquisition in the cyanobacterium Synechocystis sp. PCC 6803. |
| Q42568148 | Genetic analysis of petrobactin transport in Bacillus anthracis |
| Q36155770 | Genome sequence and mutational analysis of plant-growth-promoting bacterium Agrobacterium tumefaciens CCNWGS0286 Isolated from a zinc-lead mine tailing. |
| Q30316854 | Genomic avenue to avian colisepticemia |
| Q33911310 | Genomic characterization of Haemophilus parasuis SH0165, a highly virulent strain of serovar 5 prevalent in China |
| Q31151582 | Genomic profiling of iron-responsive genes in Salmonella enterica serovar typhimurium by high-throughput screening of a random promoter library |
| Q35593166 | Hepcidin: the missing link between hemochromatosis and infections |
| Q52319920 | Hexameric and pentameric complexes of the ExbBD energizer in the Ton system. |
| Q30160272 | Homology modelling of transferrin-binding protein A from Neisseria meningitidis. |
| Q37832853 | Host specific differences alter the requirement for certain Salmonella genes during swine colonization |
| Q36399419 | How pathogenic bacteria evade mammalian sabotage in the battle for iron |
| Q42271295 | Identification and characterization of Cronobacter iron acquisition systems. |
| Q41959393 | Identification and characterization of a new ferric enterobactin receptor, CfrB, in Campylobacter |
| Q35220387 | Identification and characterization of a novel ABC iron transport system, fit, in Escherichia coli |
| Q41377327 | Identification of a Novel Regulator for the Escherichia coli fit Iron Transport System |
| Q40130674 | Identification of specific in vivo-induced (ivi) genes in Yersinia ruckeri and analysis of ruckerbactin, a catecholate siderophore iron acquisition system. |
| Q40298311 | Identification of the ferric iron utilization gene B739_1208 and its role in the virulence of R. anatipestifer CH-1. |
| Q36847286 | In Silico Structure and Sequence Analysis of Bacterial Porins and Specific Diffusion Channels for Hydrophilic Molecules: Conservation, Multimericity and Multifunctionality |
| Q42532144 | In vitro characterization of salmochelin and enterobactin trilactone hydrolases IroD, IroE, and Fes. |
| Q41169061 | Influence of Various Levels of Iron and Other Abiotic Factors on Siderophorogenesis in Paddy Field Cyanobacterium Anabaena oryzae. |
| Q35860846 | Inhibition of Plasmodium berghei Development in Mosquitoes by Effector Proteins Secreted from Asaia sp. Bacteria Using a Novel Native Secretion Signal |
| Q40752696 | Interplay between iron homeostasis and the osmotic stress response in the halophilic bacterium Chromohalobacter salexigens |
| Q39179762 | Interplay between siderophores and colibactin genotoxin in Escherichia coli |
| Q41427367 | Involvement of reductases IruO and NtrA in iron acquisition by Staphylococcus aureus. |
| Q94545150 | Iron Limitation in Klebsiella pneumoniae Defines New Roles for Lon Protease in Homeostasis and Degradation by Quantitative Proteomics |
| Q59335781 | Iron and Virulence in : All We Know So Far |
| Q36137389 | Iron and quorum sensing coordinately regulate the expression of vulnibactin biosynthesis in Vibrio vulnificus |
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| Q35881671 | Multiple ABC transporters are involved in the acquisition of petrobactin in Bacillus anthracis |
| Q30160310 | Multiple extracellular loops contribute to substrate binding and transport by the Escherichia coli cobalamin transporter BtuB. |
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