Permeability properties of a large gated channel within the ferric enterobactin receptor, FepA.
about
Structures of Streptococcus pneumoniae PiaA and Its Complex with Ferrichrome Reveal Insights into the Substrate Binding and Release of High Affinity Iron TransportersExchangeability of N termini in the ligand-gated porins of Escherichia coli.Identification of discrete domains within gonococcal transferrin-binding protein A that are necessary for ligand binding and iron uptake functionsSequences of the Escherichia coli BtuB protein essential for its insertion and function in the outer membrane.Double mutagenesis of a positive charge cluster in the ligand-binding site of the ferric enterobactin receptor, FepABiphasic binding kinetics between FepA and its ligands.Analysis of the Erwinia chrysanthemi ferrichrysobactin receptor gene: resemblance to the Escherichia coli fepA-fes bidirectional promoter region and homology with hydroxamate receptors.Binding and surface exposure characteristics of the gonococcal transferrin receptor are dependent on both transferrin-binding proteins.From Homodimer to Heterodimer and Back: Elucidating the TonB Energy Transduction Cycle.An internal affinity-tag for purification and crystallization of the siderophore receptor FhuA, integral outer membrane protein from Escherichia coli K-12.Determination of surface-exposed, functional domains of gonococcal transferrin-binding protein A.Identification of TbpA residues required for transferrin-iron utilization by Neisseria gonorrhoeae.A model of maltodextrin transport through the sugar-specific porin, LamB, based on deletion analysis.The C-terminal domain of the Bordetella pertussis autotransporter BrkA forms a pore in lipid bilayer membranes.Specific in vivo labeling of cell surface-exposed protein loops: reactive cysteines in the predicted gating loop mark a ferrichrome binding site and a ligand-induced conformational change of the Escherichia coli FhuA protein.Selectivity of ferric enterobactin binding and cooperativity of transport in gram-negative bacteriaRole of the Haemophilus ducreyi Ton system in internalization of heme from hemoglobinEnergy-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.Properties of the FhuA channel in the Escherichia coli outer membrane after deletion of FhuA portions within and outside the predicted gating loop.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.FhuA, a transporter of the Escherichia coli outer membrane, is converted into a channel upon binding of bacteriophage T5.Cooperative uptake of microcin E492 by receptors FepA, Fiu, and Cir and inhibition by the siderophore enterochelin and its dimeric and trimeric hydrolysis products.Transferrin-binding protein B isolated from Neisseria meningitidis discriminates between apo and diferric human transferrin.CsgE is a curli secretion specificity factor that prevents amyloid fibre aggregation.Quantification of known components of the Escherichia coli TonB energy transduction system: TonB, ExbB, ExbD and FepA.TonB-dependent iron acquisition: mechanisms of siderophore-mediated active transport.The transferrin receptor expressed by gonococcal strain FA1090 is required for the experimental infection of human male volunteers.
P2860
Q27679699-23864C60-6458-404B-A163-FBC7EC79002AQ30168335-E7957B32-1D99-40A5-A20E-1D07A80313A4Q30168622-FB76548C-F5DF-4016-BB6A-DB1365DD0C28Q30452524-25721C4C-ECA9-42F0-8F32-D27D3ED30422Q34422652-EDE27F39-33DC-4CA0-B627-C6FD3207F4E0Q34436528-5DCC2911-7FF5-43AA-BB36-831ECCEA23BBQ35603083-77A0128D-2303-48AC-A35E-AB63B3300B37Q35603469-1CB50ABC-9C7F-4D57-A665-B22EF9D91E11Q36208004-3C11F369-224B-4CCB-8232-5BB7B7FFD544Q36281084-FC407BBD-FC5F-497D-9D88-7FF112913F00Q36576714-CFF4F7B5-A9D5-4AF8-8159-5DD2B9035C6EQ36593986-34F9CC96-588C-402E-B9F8-5CACD55D3446Q37636903-DD7AC33D-B651-4B73-A7AC-E7FF5864A807Q39497592-7E4E8385-3863-47C8-93E0-C659DB8340D3Q39564442-3061FB15-0256-4B82-A6E1-E7CD4BF78807Q39569087-A563E92F-0B33-4698-A255-DC57815CA57BQ39569570-DC9F3F27-B1AF-458D-95DF-CC78AC0A5FE4Q39841349-C9CF1ACD-57E4-4461-90E0-60EA371EDD81Q39843656-24AE2C76-93CB-4514-BCDB-5B161565009AQ40389798-26EA319A-A39F-4DEC-A2F0-4249BD7B6BC3Q41064603-D6B4601A-2509-4E7A-B44F-EBBA57698741Q41891980-4BF64DFF-79A1-4043-B733-80B59923FB9CQ42082205-4E3FA3D8-1640-467B-927B-24130D5D89ABQ42795210-3DBC6B32-8B9B-4663-A0F4-494D239F4786Q43967562-DCCA51C6-2C5C-4974-BE38-BDDFBC1164C2Q47919308-4790CB9E-B3D4-49C3-9F08-BE513BE91ABAQ54145749-BDC38130-6C66-4EF6-BA30-A1FD702BEEDA
P2860
Permeability properties of a large gated channel within the ferric enterobactin receptor, FepA.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
1993年论文
@zh
1993年论文
@zh-cn
name
Permeability properties of a l ...... c enterobactin receptor, FepA.
@ast
Permeability properties of a l ...... c enterobactin receptor, FepA.
@en
type
label
Permeability properties of a l ...... c enterobactin receptor, FepA.
@ast
Permeability properties of a l ...... c enterobactin receptor, FepA.
@en
prefLabel
Permeability properties of a l ...... c enterobactin receptor, FepA.
@ast
Permeability properties of a l ...... c enterobactin receptor, FepA.
@en
P2093
P2860
P356
P1476
Permeability properties of a l ...... c enterobactin receptor, FepA.
@en
P2093
P2860
P304
10653-10657
P356
10.1073/PNAS.90.22.10653
P407
P50
P577
1993-11-01T00:00:00Z