| scholarly article | Q13442814 |
| P2093 | author name string | Bradbeer C | |
| P2860 | cites work | Cobalamin transport in Escherichia coli | Q30451245 |
| Interdependence of calcium and cobalamin binding by wild-type and mutant BtuB protein in the outer membrane of Escherichia coli | Q30451871 | ||
| Transport of vitamin B12 in tonB mutants of Escherichia coli | Q30452052 | ||
| Transport of vitamin B12 in Escherichia coli: energy dependence | Q30452054 | ||
| Energy coupling for methionine transport in Escherichia coli | Q30452061 | ||
| Transport systems for L-methionine in Escherichia coli | Q30452101 | ||
| The tol gene products and the import of macronmolecules into Escherichia coli | Q36533420 | ||
| Relationship between the tonB locus and iron transport in Escherichia coli | Q36608372 | ||
| TonB and the gram-negative dilemma | Q37867581 | ||
| Mutants of Escherichia coli requiring methionine or vitamin B12 | Q39513131 | ||
| Novel iron uptake system specified by ColV plasmids: an important component in the virulence of invasive strains of Escherichia coli | Q39907007 | ||
| Involvement of ExbB and TonB in transport across the outer membrane of Escherichia coli: phenotypic complementation of exb mutants by overexpressed tonB and physical stabilization of TonB by ExbB | Q39950283 | ||
| The structurally related exbB and tolQ genes are interchangeable in conferring tonB-dependent colicin, bacteriophage, and albomycin sensitivity | Q39951008 | ||
| Two proline porters in Escherichia coli K-12. | Q39976930 | ||
| Excretion of Enterochelin by exbA and exbB Mutants of Escherichia coli | Q40290065 | ||
| Formation of a gated channel by a ligand-specific transport protein in the bacterial outer membrane | Q42072564 | ||
| Escherichia coli TonB protein is exported from the cytoplasm without proteolytic cleavage of its amino terminus | Q42649054 | ||
| Membrane receptor dependent iron transport inEscherichia coli | Q44928155 | ||
| Structure and function of X-Pro dipeptide repeats in the TonB proteins of Salmonella typhimurium and Escherichia coli. | Q50192460 | ||
| Transport of ferric-aerobactin into the periplasm and cytoplasm of Escherichia coli K12: role of envelope-associated proteins and effect of endogenous siderophores. | Q54682753 | ||
| Evidence for a TonB-dependent energy transduction complex in Escherichia coli. | Q54688036 | ||
| Suppression of the btuB451 mutation by mutations in the tonB gene suggests a direct interaction between TonB and TonB-dependent receptor proteins in the outer membrane of Escherichia coli. | Q54750034 | ||
| Different mechanisms of energy coupling for the shock-sensitive and shock-resistant amino acid permeases of Escherichia coli | Q68537844 | ||
| An additional step in the transport of iron defined by the tonB locus of Escherichia coli | Q69933154 | ||
| Transport of vitamin B12 in Escherichia coli. Some observations on the roles of the gene products of BtuC and TonB | Q71500976 | ||
| P433 | issue | 10 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Escherichia coli | Q25419 |
| P304 | page(s) | 3146-3150 | |
| P577 | publication date | 1993-05-01 | |
| P1433 | published in | Journal of Bacteriology | Q478419 |
| P1476 | title | The proton motive force drives the outer membrane transport of cobalamin in Escherichia coli | |
| P478 | volume | 175 |
| Q35759471 | A novel protein, TtpC, is a required component of the TonB2 complex for specific iron transport in the pathogens Vibrio anguillarum and Vibrio cholerae |
| Q35058516 | Acquisition of siderophores in gram-negative bacteria. |
| Q27635214 | Active transport of an antibiotic rifamycin derivative by the outer-membrane protein FhuA |
| Q40763891 | Analysis of haptoglobin and hemoglobin-haptoglobin interactions with the Neisseria meningitidis TonB-dependent receptor HpuAB by flow cytometry |
| Q34514548 | Analysis of residues determining specificity of Vibrio cholerae TonB1 for its receptors |
| Q73836174 | Cell envelope signaling in Escherichia coli. Ligand binding to the ferrichrome-iron receptor fhua promotes interaction with the energy-transducing protein TonB |
| Q57460444 | Chapter 28 Communication between membranes in tonB-dependent transport across the bacterial outer membrane |
| Q34011314 | Characterization of in vitro interactions between a truncated TonB protein from Escherichia coli and the outer membrane receptors FhuA and FepA. |
| Q39837993 | Characterization of the exbBD operon of Escherichia coli and the role of ExbB and ExbD in TonB function and stability. |
| Q40509163 | Chemiosmotic concept of the membrane bioenergetics: what is already clear and what is still waiting for elucidation? |
| Q33761882 | Cloning and characterization of tdhA, a locus encoding a TonB-dependent heme receptor from Haemophilus ducreyi |
| Q34003183 | Cloning and characterization of vuuA, a gene encoding the Vibrio vulnificus ferric vulnibactin receptor |
| Q24671701 | Colicin biology |
| Q40742070 | Colicins: structures, modes of action, transfer through membranes, and evolution |
| Q33826798 | Concerted loop motion triggers induced fit of FepA to ferric enterobactin |
| Q30152687 | Confined Mobility of TonB and FepA in Escherichia coli Membranes |
| Q73213793 | 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 |
| Q35012637 | Contribution of proton-translocating proteins to the virulence of Salmonella enterica serovars Typhimurium, Gallinarum, and Dublin in chickens and mice. |
| Q27631524 | Crystal structure of the dimeric C-terminal domain of TonB reveals a novel fold |
| Q37311452 | Cytoplasmic membrane protonmotive force energizes periplasmic interactions between ExbD and TonB |
| Q42618079 | Deletion and substitution analysis of the Escherichia coli TonB Q160 region. |
| Q36576714 | Determination of surface-exposed, functional domains of gonococcal transferrin-binding protein A. |
| Q30165146 | Diffusion through channel derivatives of the Escherichia coli FhuA transport protein |
| Q27642759 | Dimerization of TonB is not essential for its binding to the outer membrane siderophore receptor FhuA of Escherichia coli |
| Q33885144 | Direct measurements of the outer membrane stage of ferric enterobactin transport: postuptake binding |
| Q39841349 | 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 |
| Q40470630 | Energy-coupled transport and signal transduction through the Gram-negative outer membrane via TonB-ExbB-ExbD-dependent receptor proteins |
| Q40389798 | Energy-coupled transport through the outer membrane of Escherichia coli small deletions in the gating loop convert the FhuA transport protein into a diffusion channel |
| Q30541432 | Energy-dependent motion of TonB in the Gram-negative bacterial inner membrane |
| Q30159599 | Evidence of ball-and-chain transport of ferric enterobactin through FepA |
| Q39839403 | Evidence that the immunity protein inactivates colicin 5 immediately prior to the formation of the transmembrane channel |
| Q38318218 | ExbBD-dependent transport of maltodextrins through the novel MalA protein across the outer membrane of Caulobacter crescentus |
| Q30168335 | Exchangeability of N termini in the ligand-gated porins of Escherichia coli |
| Q30168191 | FhuA barrel-cork hybrids are active transporters and receptors |
| Q42008979 | Fluoresceination of FepA during colicin B killing: effects of temperature, toxin and TonB. |
| Q41814192 | Gating of TonB-dependent transporters by substrate-specific forced remodelling |
| Q30160272 | Homology modelling of transferrin-binding protein A from Neisseria meningitidis. |
| Q36046024 | Identification and characterization of HtsA, a second heme-binding protein made by Streptococcus pyogenes |
| Q35603383 | Identification of TonB homologs in the family Enterobacteriaceae and evidence for conservation of TonB-dependent energy transduction complexes |
| Q39835470 | Identification of receptor binding sites by competitive peptide mapping: phages T1, T5, and phi 80 and colicin M bind to the gating loop of FhuA. |
| Q30308529 | Identification of the periplasmic cobalamin-binding protein BtuF of Escherichia coli |
| Q39887805 | In vivo evidence for TonB dimerization |
| Q39527357 | In vivo synthesis of the periplasmic domain of TonB inhibits transport through the FecA and FhuA iron siderophore transporters of Escherichia coli |
| Q38609029 | Insight from TonB hybrid proteins into the mechanism of iron transport through the outer membrane |
| Q33742051 | Interactions in the TonB-dependent energy transduction complex: ExbB and ExbD form homomultimers |
| Q53709207 | Interactions of haemoglobin with the Neisseria meningitidis receptor HpuAB: the role of TonB and an intact proton motive force. |
| Q39504716 | Involvement of the TonB system in tolerance to solvents and drugs in Pseudomonas putida DOT-T1E. |
| Q33995328 | Involvement of the XpsN protein in formation of the XpsL-xpsM complex in Xanthomonas campestris pv. campestris type II secretion apparatus |
| Q36700536 | Iron acquisition in the dental pathogen Actinobacillus actinomycetemcomitans: what does it use as a source and how does it get this essential metal? |
| Q40734055 | Mechanisms of TonB-catalyzed iron transport through the enteric bacterial cell envelope. |
| Q33538588 | Mechanisms of solute transport through outer membrane porins: burning down the house |
| Q39496349 | Membrane association and multimerization of secreton component pulC |
| Q35626594 | Metal import through microbial membranes |
| Q35004471 | Microbial iron acquisition: marine and terrestrial siderophores |
| Q30153473 | Molecular basis of usher pore gating in Escherichia coli pilus biogenesis |
| Q27652701 | Molecular characterization of the TonB2 protein from the fish pathogen Vibrio anguillarum |
| Q45951699 | Molecular modeling of the bacterial outer membrane receptor energizer, ExbBD/TonB, based on homology with the flagellar motor, MotAB. |
| Q30164589 | Mutant analysis of the Escherichia coli FhuA protein reveals sites of FhuA activity |
| Q39568912 | Mutational analysis of the Escherichia coli K-12 TolA N-terminal region and characterization of its TolQ-interacting domain by genetic suppression. |
| Q36969550 | Mutations in Escherichia coli ExbB transmembrane domains identify scaffolding and signal transduction functions and exclude participation in a proton pathway |
| Q30452526 | Mutual inhibition of cobalamin and siderophore uptake systems suggests their competition for TonB function |
| Q34537995 | Novel analysis of oceanic surface water metagenomes suggests importance of polyphosphate metabolism in oligotrophic environments |
| Q30444642 | Observations on the calcium dependence and reversibility of cobalamin transport across the outer membrane of Escherichia coli |
| Q40909348 | Point mutations in transmembrane helices 2 and 3 of ExbB and TolQ affect their activities in Escherichia coli K-12. |
| Q39843656 | Properties of the FhuA channel in the Escherichia coli outer membrane after deletion of FhuA portions within and outside the predicted gating loop |
| Q37268211 | Proteorhodopsin light-enhanced growth linked to vitamin-B1 acquisition in marine Flavobacteria |
| Q77800558 | Pumping iron through cell membranes |
| Q26770858 | ROSET Model of TonB Action in Gram-Negative Bacterial Iron Acquisition |
| Q35623484 | Regions of Escherichia coli TonB and FepA proteins essential for in vivo physical interactions |
| Q33818681 | Repression of btuB gene transcription in Escherichia coli by the GadX protein |
| Q35185815 | Revealing microbial functional activities in the Red Sea sponge Stylissa carteri by metatranscriptomics |
| Q47146746 | RiboFACSeq: A new method for investigating metabolic and transport pathways in bacterial cells by combining a riboswitch-based sensor, fluorescence-activated cell sorting and next-generation sequencing. |
| Q33635245 | Role of TolR N-terminal, central, and C-terminal domains in dimerization and interaction with TolA and tolQ. |
| Q39569570 | Role of the Haemophilus ducreyi Ton system in internalization of heme from hemoglobin |
| Q38290733 | Role of the Native Outer-Membrane Environment on the Transporter BtuB. |
| Q39931491 | Role of the TonB amino terminus in energy transduction between membranes |
| Q30306230 | Sequence changes in the ton box region of BtuB affect its transport activities and interaction with TonB protein |
| Q38296884 | Signal transfer through three compartments: transcription initiation of the Escherichia coli ferric citrate transport system from the cell surface |
| Q44200235 | Spectroscopic observations of ferric enterobactin transport |
| Q39680043 | Surface loop motion in FepA. |
| Q35139137 | Taking the Escherichia coli TonB transmembrane domain "offline"? Nonprotonatable Asn substitutes fully for TonB His20. |
| Q42157366 | The contribution of genes required for anaerobic respiration to the virulence of Salmonella enterica serovar Gallinarum for chickens |
| Q37092871 | The role of ExbD in periplasmic pH homeostasis in Helicobacter pylori |
| Q37860145 | TonB or not TonB: is that the question? |
| Q40734050 | TonB protein and energy transduction between membranes |
| Q30362887 | TonB system, in vivo assays and characterization. |
| Q30165118 | TonB-dependent receptors-structural perspectives |
| Q42625326 | TonB/TolA amino-terminal domain modeling |
| Q35188481 | Touch and go: tying TonB to transport. |
| Q37624287 | Two tonB systems function in iron transport in Vibrio anguillarum, but only one is essential for virulence |
| Q39847951 | Unusual structure of the tonB-exb DNA region of Xanthomonas campestris pv. campestris: tonB, exbB, and exbD1 are essential for ferric iron uptake, but exbD2 is not. |
| Q38332325 | Vibrio cholerae iron transport: haem transport genes are linked to one of two sets of tonB, exbB, exbD genes |
| Q40502046 | Vitamin B12 and the B12 coenzymes. |
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