fii, a bacterial locus required for filamentous phage infection and its relation to colicin-tolerant tolA and tolB.
about
CTXphi infection of Vibrio cholerae requires the tolQRA gene productsFf coliphages: structural and functional relationshipsColicin biologyThe mechanism of bacterial infection by filamentous phages involves molecular interactions between TolA and phage protein 3 domainsStructure of the periplasmic domain of Pseudomonas aeruginosa TolA: evidence for an evolutionary relationship with the TonB transporter protein.Structure and Function of Colicin S4, a Colicin with a Duplicated Receptor-binding DomainCrystal Structures of a CTX pIII Domain Unbound and in Complex with a Vibrio cholerae TolA Domain Reveal Novel Interaction InterfacesStructural and energetic basis of infection by the filamentous bacteriophage IKeRole of the carboxyl-terminal domain of TolA in protein import and integrity of the outer membrane.Microcin E492 antibacterial activity: evidence for a TonB-dependent inner membrane permeabilization on Escherichia coli.Role of TolR N-terminal, central, and C-terminal domains in dimerization and interaction with TolA and tolQ.Translation limits synthesis of an assembly-initiating coat protein of filamentous phage IKe.The TolQRA proteins are required for membrane insertion of the major capsid protein of the filamentous phage f1 during infectionInteractions in the TonB-dependent energy transduction complex: ExbB and ExbD form homomultimersThe phage infection process: a functional role for the distal linker region of bacteriophage protein 3.Inhibition of bacterial conjugation by phage M13 and its protein g3p: quantitative analysis and modelColicin A unfolds during its translocation in Escherichia coli cells and spans the whole cell envelope when its pore has formed.TonB interacts with nonreceptor proteins in the outer membrane of Escherichia coli.The genome of the novel phage Rtp, with a rosette-like tail tip, is homologous to the genome of phage T1FepA- and TonB-dependent bacteriophage H8: receptor binding and genomic sequence.Mapping the interactions between Escherichia coli TolQ transmembrane segments.Identification of shuA, the gene encoding the heme receptor of Shigella dysenteriae, and analysis of invasion and intracellular multiplication of a shuA mutant.Quantification of group A colicin import sitesThe trans-envelope Tol-Pal complex is part of the cell division machinery and required for proper outer-membrane invagination during cell constriction in E. coliCharacterization of the tol-pal region of Escherichia coli K-12: translational control of tolR expression by TolQ and identification of a new open reading frame downstream of pal encoding a periplasmic proteinProtein import into Escherichia coli: colicins A and E1 interact with a component of their translocation systemMaturation and localization of the TolB protein required for colicin import.Membrane topology of the Escherichia coli TolR protein required for cell envelope integrity.Localization and assembly into the Escherichia coli envelope of a protein required for entry of colicin A.Nucleotide sequences of the tolA and tolB genes and localization of their products, components of a multistep translocation system in Escherichia coli.A hybrid toxin from bacteriophage f1 attachment protein and colicin E3 has altered cell receptor specificityLow-frequency infection of F- bacteria by transducing particles of filamentous bacteriophages.Nucleotide sequence of a gene cluster involved in entry of E colicins and single-stranded DNA of infecting filamentous bacteriophages into Escherichia coli.A traC mutant that retains sensitivity to f1 bacteriophage but lacks F piliCharacterization of ompF domains involved in Escherichia coli K-12 sensitivity to colicins A and N.Interactions of the energy transducer TonB with noncognate energy-harvesting complexesLinkage map of Escherichia coli K-12, edition 8TolA: a membrane protein involved in colicin uptake contains an extended helical region.Bacterial surface association of heat-labile enterotoxin through lipopolysaccharide after secretion via the general secretory pathwayIn vivo synthesis of the periplasmic domain of TonB inhibits transport through the FecA and FhuA iron siderophore transporters of Escherichia coli.
P2860
Q24548978-FD6EDD71-6FBD-4833-98F5-D69AF5308430Q24634428-51D39A26-654A-43BC-BB96-21F1E3AEE651Q24671701-6A3F49FA-ED40-4D02-B22D-0B853A7BF018Q24684700-186D2841-6AB3-4051-A13F-47F3D16C0287Q27639474-45423F7F-F571-464D-8FA2-FF717559BC27Q27653060-2B69CD4A-DFA5-4266-B7CE-8510F23F1E10Q27671848-0C4693E0-48B7-4F8D-A8AD-7FCA105BF031Q27679108-614A8532-E916-42D8-9CE3-F4EA9C0FF100Q30451833-A78FDB62-F58E-404B-AA71-D6975FA576E0Q31151217-8550E8C7-DDF4-4B11-AF95-78984BB5AFFAQ33635245-076CE87B-8A65-4BB1-8FB1-9A86F6256FEEQ33723532-663F7F59-2138-4E68-8181-4C165AB4DCFCQ33727468-0705A288-75FE-4936-966E-5907A40BCBF5Q33742051-B74A4968-DB32-458C-B1A2-FAE85C77B2DFQ33803685-A18ADCC0-0E67-43BD-9BA9-76CF7C97A968Q33921349-BE2DE284-6E3C-4643-B2FD-EA5098DBE61EQ33937336-E306B78F-201F-47B9-8403-4406E1C4D287Q34307222-E4C846CF-E6A7-4C97-B67D-18643EBF7868Q34353966-633DCA84-5E50-4D47-953A-F908B07D9386Q34631733-969D06A0-E097-4FB8-BF1B-3B2B7221AA86Q34719857-855AA53D-CBAC-40AA-B315-7442CAF6C563Q35561276-A9547972-6872-489B-BF81-48F3CA3C9501Q35593263-5FDEE99E-6589-4935-81A9-CC62DCA4F42CQ35596402-B707FC59-1255-4E7F-A710-694A7A6EFFD6Q35609184-E3925B54-3BE4-4779-B393-901511CA1C85Q35927451-C13BA5D7-1384-4286-8558-7E1483F6CAAEQ35979581-59B2C1F2-55B5-4268-886B-51B9D0A5D1ABQ36122421-721BB8B3-4BB9-46DD-88E2-1D38BF97F5F7Q36176600-9F51C533-73C4-4DC9-B5E4-8720B77A48ADQ36184555-AC23CCB3-8D8D-42F7-96AF-AA49A108DEF2Q36215445-0A278F27-4CA5-4893-B2E8-D451B87103BCQ36222740-D4143F51-9BEC-421E-A17A-6AFB96DFC435Q36238659-4742809A-C4E6-4AC8-A89A-3BAA8C0BB2B3Q36240115-CA50794A-D67E-4BA5-AF99-F2CDFCF199D9Q36256944-AD4C07A5-C790-45BC-BF18-7E9253F827F6Q36422274-58041AA9-0CA6-4D75-9D2C-AB4FB64C20E6Q37056213-81550534-35C5-4183-99C9-C2E77BAD12FFQ37544989-22946A94-B568-413F-A2B3-7FCE7EC1A532Q39455971-23C61D4A-4FC6-41B6-82CF-8795C256E75AQ39527357-6094A7D0-248E-4B5E-9B69-FCB4397BAB08
P2860
fii, a bacterial locus required for filamentous phage infection and its relation to colicin-tolerant tolA and tolB.
description
1986 nî lūn-bûn
@nan
1986年の論文
@ja
1986年学术文章
@wuu
1986年学术文章
@zh-cn
1986年学术文章
@zh-hans
1986年学术文章
@zh-my
1986年学术文章
@zh-sg
1986年學術文章
@yue
1986年學術文章
@zh
1986年學術文章
@zh-hant
name
fii, a bacterial locus require ...... olicin-tolerant tolA and tolB.
@en
fii, a bacterial locus require ...... olicin-tolerant tolA and tolB.
@nl
type
label
fii, a bacterial locus require ...... olicin-tolerant tolA and tolB.
@en
fii, a bacterial locus require ...... olicin-tolerant tolA and tolB.
@nl
prefLabel
fii, a bacterial locus require ...... olicin-tolerant tolA and tolB.
@en
fii, a bacterial locus require ...... olicin-tolerant tolA and tolB.
@nl
P2860
P1476
fii, a bacterial locus require ...... olicin-tolerant tolA and tolB.
@en
P2093
P2860
P304
P356
10.1128/JB.165.1.107-115.1986
P577
1986-01-01T00:00:00Z