Describing the mechanism of antimicrobial peptide action with the interfacial activity model
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Marine Antimicrobial Peptides: Nature Provides Templates for the Design of Novel Compounds against Pathogenic BacteriaPeptides and Peptidomimetics for Antimicrobial Drug DesignOn the role of NMR spectroscopy for characterization of antimicrobial peptidesEvidence for Phenylalanine Zipper-Mediated Dimerization in the X-ray Crystal Structure of a Magainin 2 AnalogueHigh-Resolution Structures and Orientations of Antimicrobial Peptides Piscidin 1 and Piscidin 3 in Fluid Bilayers Reveal Tilting, Kinking, and Bilayer ImmersionAntimicrobial Peptides Targeting Gram-Positive BacteriaExploring new biological functions of amyloids: bacteria cell agglutination mediated by host protein aggregationRTD-1mimic containing γPNA scaffold exhibits broad-spectrum antibacterial activitiesTowards the rational design of antimicrobial proteins: single point mutations can switch on bactericidal and agglutinating activities on the RNase A superfamily lineage.Oligomeric interactions of sarcolipin and the Ca-ATPase.Localized permeabilization of E. coli membranes by the antimicrobial peptide Cecropin A.Molecular dynamics simulations of a new branched antimicrobial peptide: a comparison of force fields.Membrane Thinning and Thickening Induced by Membrane-Active Amphipathic Peptides.Simulations of Membrane-Disrupting Peptides II: AMP Piscidin 1 Favors Surface Defects over PoresTopical antimicrobials for burn infections - an updateSimulating the mechanism of antimicrobial lipopeptides with all-atom molecular dynamics.Prediction of linear cationic antimicrobial peptides based on characteristics responsible for their interaction with the membranesBioactive Antimicrobial Peptides as Therapeutics for Corneal Wounds and Infections.Molecular dynamics exploration of poration and leaking caused by Kalata B1 in HIV-infected cell membrane compared to host and HIV membranesMembrane binding of an acyl-lactoferricin B antimicrobial peptide from solid-state NMR experiments and molecular dynamics simulations.Medium effects on minimum inhibitory concentrations of nylon-3 polymers against E. coli.Progressive structuring of a branched antimicrobial peptide on the path to the inner membrane targetGain-of-function analogues of the pore-forming peptide melittin selected by orthogonal high-throughput screening.Ternary nylon-3 copolymers as host-defense peptide mimics: beyond hydrophobic and cationic subunits.Interaction of nuclease colicins with membranes: insertion depth correlates with bilayer perturbation.Host defense peptides: an alternative as antiinfective and immunomodulatory therapeutics.Antimicrobial peptides and wound healing: biological and therapeutic considerationsHost Cell Interactions Are a Significant Barrier to the Clinical Utility of Peptide Antibiotics.Synthetic molecular evolution of pore-forming peptides by iterative combinatorial library screening.Dynamic scenario of membrane binding process of kalata b1pH Dependence of microbe sterilization by cationic antimicrobial peptidesA lipocentric view of peptide-induced pores.A membrane-translocating peptide penetrates into bilayers without significant bilayer perturbations.Toward the de novo design of antimicrobial peptides: Lack of correlation between peptide permeabilization of lipid vesicles and antimicrobial, cytolytic, or cytotoxic activity in living cells.An index for characterization of natural and non-natural amino acids for peptidomimeticsNMR structure of temporin-1 ta in lipopolysaccharide micelles: mechanistic insight into inactivation by outer membrane.Islet amyloid polypeptide demonstrates a persistent capacity to disrupt membrane integrityWhat Goes around Comes around-A Comparative Study of the Influence of Chemical Modifications on the Antimicrobial Properties of Small Cyclic Peptides.Antibacterial studies of cationic polymers with alternating, random, and uniform backbones.Microbial symbiosis with the innate immune defense system of the skin.
P2860
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P2860
Describing the mechanism of antimicrobial peptide action with the interfacial activity model
description
2010 nî lūn-bûn
@nan
2010 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Describing the mechanism of an ...... the interfacial activity model
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Describing the mechanism of an ...... the interfacial activity model
@en
Describing the mechanism of an ...... the interfacial activity model
@nl
type
label
Describing the mechanism of an ...... the interfacial activity model
@ast
Describing the mechanism of an ...... the interfacial activity model
@en
Describing the mechanism of an ...... the interfacial activity model
@nl
prefLabel
Describing the mechanism of an ...... the interfacial activity model
@ast
Describing the mechanism of an ...... the interfacial activity model
@en
Describing the mechanism of an ...... the interfacial activity model
@nl
P2860
P356
P1433
P1476
Describing the mechanism of an ...... the interfacial activity model
@en
P2093
William C Wimley
P2860
P304
P356
10.1021/CB1001558
P577
2010-10-01T00:00:00Z