The adsorption of coliphage lambda to its host: effect of variations in the surface density of receptor and in phage-receptor affinity. - Wikidata - wikimedia - TriplyDB

The adsorption of coliphage lambda to its host: effect of variations in the surface density of receptor and in phage-receptor affinity.

The adsorption of coliphage lambda to its host: effect of variations in the surface density of receptor and in phage-receptor affinity.

http://www.wikidata.org/entity/Q38359591

about

Physics of chemoreception Virus-like particles as quantitative probes of membrane protein interactions Interaction of bacteriophage l with its E. coli receptor, LamB Effects of CCR5 and CD4 cell surface concentrations on infections by macrophagetropic isolates of human immunodeficiency virus type 1.High adsorption rate is detrimental to bacteriophage fitness in a biofilm-like environment.Cooperation of multiple CCR5 coreceptors is required for infections by human immunodeficiency virus type 1 Virus-assisted loading of polymer nanocontainer Following cell-fate in E. coli after infection by phage lambda.Competition between solution and cell surface receptors for ligand. Dissociation of hapten bound to surface antibody in the presence of solution antibody.Approximating the effects of diffusion on reversible reactions at the cell surface: ligand-receptor kinetics.Restriction map of the Escherichia coli malA region and identification of the malT product The effect of receptor density on the forward rate constant for binding of ligands to cell surface receptors FepA- and TonB-dependent bacteriophage H8: receptor binding and genomic sequence.Mutational analysis of the Shigella flexneri O-antigen polymerase Wzy: identification of Wzz-dependent Wzy mutants.Single-virus tracking reveals a spatial receptor-dependent search mechanism.Mutations that affect lamB gene expression at a posttranscriptional level.Evidence that the heterogeneity of a T4 population is the result of heritable traits A convenient technique to compare the efficiency of promoters in Escherichia coli.Selection and Characterization of Phage-Resistant Mutant Strains of Listeria monocytogenes Reveal Host Genes Linked to Phage Adsorption.On kinetics of phage adsorption.Rates of membrane-associated reactions: reduction of dimensionality revisited Role of the catabolite activator protein in the maltose regulon of Escherichia coli.Spontaneous release of lipopolysaccharide by Pseudomonas aeruginosa Fast responses of bacterial membranes to virus adsorption: a fluorescence study Improved plasmid-based system for fully regulated off-to-on gene expression in Escherichia coli: application to production of toxic proteins Extension of bacteriophage lambda host range: selection, cloning, and characterization of a constitutive lambda receptor gene Differences in CD4 dependence for infectivity of laboratory-adapted and primary patient isolates of human immunodeficiency virus type 1.Stochastic receptor expression allows sensitive bacteria to evade phage attack. Part I: experiments.Stochastic receptor expression allows sensitive bacteria to evade phage attack. Part II: theoretical analyses Cosmid-based system for transient expression and absolute off-to-on transcriptional control of Escherichia coli genes.Importance of secondary structure in the signal sequence for protein secretion.Protein Ia and the lamB protein can replace each other in the constitution of an active receptor for the same coliphage.The recognition of maltodextrins by Escherichia coli.Periplasmic maltose-binding protein confers specificity on the outer membrane maltose pore of Escherichia coli.Kinetic studies of the interaction between MS2 phage and F pilus of Escherichia coli.Sperm thrusts and the problem of penetration.Exceptional fusogenicity of Chinese hamster ovary cells with murine retroviruses suggests roles for cellular factor(s) and receptor clusters in the membrane fusion process.Derepression of LamB protein facilitates outer membrane permeation of carbohydrates into Escherichia coli under conditions of nutrient stress.High-sensitivity detection of newly induced LamB protein on the Escherichia coli cell surface.In vivo and in vitro functional alterations of the bacteriophage lambda receptor in lamB missense mutants of Escherichia coli K-12.

P2860

Q24546294-9CAB9E97-272C-4E02-BC63-7E45542851B0 Q24657310-36A33EA1-C1B7-410F-BB0B-54FC65B2AADA Q26862248-0AF76EEF-367D-4777-BC8C-D1DFD3D257D5 Q29622903-0F868C02-F119-496C-B907-28A0A0AD2F15 Q33508705-77E88F8C-0DC8-4111-81D5-C1DE381CF943 Q33808920-8C109328-E669-4A62-B659-F2694E1C6571 Q34023316-2231E861-8714-4FF8-AE09-4163BFA08585 Q34057002-39AA30F4-9211-40F2-B2AE-4C3B7145BE7A Q34125217-A4C7439F-57B6-4679-9F33-5674E08FFA8B Q34129112-DFE56D87-ADCA-441D-AF39-C7533EC3D61A Q34146250-13425761-EE28-40A8-9052-9CEAFFE60586 Q34259630-993EB8B9-E416-41CB-AA4F-858FE7EC0E17 Q34631733-623C66F2-D189-43D2-9926-2F7CF13596CA Q34888328-295CBC87-0308-4C8F-B67A-3AEC01F40339 Q35070497-B58697C7-E11E-466E-8546-EA46BD9DC87F Q35360611-47661E64-461C-42B4-8378-AE4AD9F74DC4 Q35536529-EA239D21-8F82-4914-85EF-A173FD6862F7 Q35559090-9E4859E2-CBC4-4BC1-8E8B-40F17A75B703 Q35764037-212986A6-3C9D-459C-9607-F5C1B6190641 Q35881262-6EBAE4B7-8F81-4E50-BBC2-C49BE5E2B3CE Q36214302-3705A14E-771D-4BFC-869F-6BC0E763B15A Q36310128-88A677E7-4B31-43C7-AA13-C9EE4F15FEF1 Q36331880-092AA1CF-AAA0-4E0D-B17F-691CCB164E55 Q36368191-84E0F576-E462-4B7B-B32C-2E5B97BC5698 Q36518299-BC6AA4BE-4F5E-4E5D-8ABB-29EED37BDB94 Q36586907-5805012D-E237-40E1-BD77-7D94E03B7F4F Q36632478-51BB5A45-B15E-49F3-B4CB-AEBF25B0D656 Q36785165-EF18642C-0D20-4B9F-917F-16A366D1D870 Q36785216-4E85595F-3DCF-4CF7-89D7-B8E6D987C054 Q37052275-3DDDB5FD-2901-4443-B7F3-48550930715C Q37343850-F105CE09-DB84-4550-94B2-9A39A1CE13A5 Q37595012-F5EE70EE-D578-434B-8EC3-9C60F2FF9A52 Q38356888-BD0C4C01-D3FA-46B0-8192-5387B4411C22 Q38357089-0526AB59-6ACA-4907-9B00-31CABE698D02 Q39256690-4CF396D3-7FE3-4169-822D-4BF291BA4815 Q39639705-1C42FCC5-8984-4890-AEEF-00455C82334A Q39874520-53E28811-A21C-4B1C-9871-1E734F47748E Q39885276-9F5CF730-C441-48EB-8AA5-5777DB84F00A Q39969152-80C5CF24-69BC-4A59-8E9D-4F82BA7CE397 Q39971443-ABE0B9A0-4201-4B1B-B8BB-E7050D5DD8D2

P2860

The adsorption of coliphage lambda to its host: effect of variations in the surface density of receptor and in phage-receptor affinity.

http://www.wikidata.org/entity/Q38359591

description

1976 nî lūn-bûn

@nan

1976年の論文

@ja

1976年学术文章

@wuu

1976年学术文章

@zh-cn

1976年学术文章

@zh-hans

1976年学术文章

@zh-my

1976年学术文章

@zh-sg

1976年學術文章

@yue

1976年學術文章

@zh

1976年學術文章

@zh-hant

name

The adsorption of coliphage la ...... nd in phage-receptor affinity.

@en

type

label

The adsorption of coliphage la ...... nd in phage-receptor affinity.

@en

prefLabel

The adsorption of coliphage la ...... nd in phage-receptor affinity.

@en

P1433

Q38359591-A777DF57-FB69-46AC-B71A-D8FF219AA766

P1476

Q38359591-79ADE313-9E9F-4845-8514-A61CD4D8FE0F

P2093

Q38359591-F838CCAE-050E-4F9C-851F-89D8A69907B1

P304

Q38359591-BF82A304-A531-4F06-9329-5601DC3603A0

P31

Q38359591-F8957F44-CF0C-48A0-80E5-5EC5D730A2A6

P356

Q38359591-D3A7AB8E-7CEF-4FC7-AF7F-C1F77B20F3C4

P407

Q38359591-8609BDBC-4BA1-4EEE-AE09-65FA6CCD8F4E

P433

Q38359591-7EE2BC1A-BD42-40E8-B11C-E16B42BE3194

P478

Q38359591-9AC47557-B133-4EE0-AF6C-6B9328CBBCB4

P577

Q38359591-5EBD5257-029A-4703-B320-361AEFB58B23

P698

Q38359591-9A87FA89-E12B-4AEE-B2A7-47CBE3296579

P356

0022-2836(76)90215-1

P1433

Journal of Molecular Biology

P1476

The adsorption of coliphage la ...... nd in phage-receptor affinity.

@en

P2093

Schwartz M

http://www.w3.org/2001/XMLSchema#string

P304

521-536

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/0022-2836(76)90215-1

http://www.w3.org/2001/XMLSchema#string

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

103

http://www.w3.org/2001/XMLSchema#string

P577

1976-05-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

181582

http://www.w3.org/2001/XMLSchema#string