Can we predict biological activity of antimicrobial peptides from their interactions with model phospholipid membranes?
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On the role of NMR spectroscopy for characterization of antimicrobial peptidesAntimicrobial proteins in intestine and inflammatory bowel diseasesFunctional characterization of a melittin analog containing a non-natural tryptophan analogDecoding the Functional Roles of Cationic Side Chains of the Major Antimicrobial Region of Human Cathelicidin LL-37Initial Insights into Structure-Activity Relationships of Avian DefensinsAntimicrobial Activity of Cationic Antimicrobial Peptides against Gram-Positives: Current Progress Made in Understanding the Mode of Action and the Response of BacteriaLatarcins: versatile spider venom peptidesBeta-sheet pore-forming peptides selected from a rational combinatorial library: mechanism of pore formation in lipid vesicles and activity in biological membranes.Temporin-SHf, a new type of phe-rich and hydrophobic ultrashort antimicrobial peptide.Amyloid-β peptide protects against microbial infection in mouse and worm models of Alzheimer's diseaseDescribing the mechanism of antimicrobial peptide action with the interfacial activity modelAntitumor and angiostatic activities of the antimicrobial peptide dermaseptin B2.Inflammatory bowel disease: an impaired barrier disease.Molecular and functional characterization of a c-type lysozyme from the Asian corn borer, Ostrinia furnacalis.Crystal structure of (2E)-1-(4-hy-droxy-3-meth-oxy-phen-yl)-3-(4-hy-droxy-phen-yl)prop-2-en-1-one.Crystal structure of (2E)-3-(3-eth-oxy-4-hy-droxy-phen-yl)-1-(4-hy-droxy-phen-yl)prop-2-en-1-one.Activity determinants of helical antimicrobial peptides: a large-scale computational studyUltrashort antibacterial and antifungal lipopeptidesWhat determines the activity of antimicrobial and cytolytic peptides in model membranesBrevinin-2R(1) semi-selectively kills cancer cells by a distinct mechanism, which involves the lysosomal-mitochondrial death pathwayMechanism of the cell-penetrating peptide transportan 10 permeation of lipid bilayers.Membrane insertion and bilayer perturbation by antimicrobial peptide CM15.Zwitterionic phospholipids and sterols modulate antimicrobial peptide-induced membrane destabilization.Determining the mechanism of membrane permeabilizing peptides: identification of potent, equilibrium pore-formersInsight into the mechanism of action of temporin-SHa, a new broad-spectrum antiparasitic and antibacterial agent.A quantitative model for the all-or-none permeabilization of phospholipid vesicles by the antimicrobial peptide cecropin A.Lipid vesicles as membrane models for toxicological assessment of xenobiotics.Mechanisms of antimicrobial, cytolytic, and cell-penetrating peptides: from kinetics to thermodynamics.Innate antimicrobial immunity in inflammatory bowel diseases.Antifungal activities of peptides derived from domain 5 of high-molecular-weight kininogen.Antibacterial Peptides: Opportunities for the Prevention and Treatment of Dental Caries.Conformational flexibility determines selectivity and antibacterial, antiplasmodial, and anticancer potency of cationic α-helical peptides.Cyclic Peptides as Novel Therapeutic Microbicides: Engineering of Human Defensin Mimetics.The Crohn's disease-associated adherent-invasive Escherichia coli strain LF82 replicates in mature phagolysosomes within J774 macrophages.A molecular mechanism for lipopolysaccharide protection of Gram-negative bacteria from antimicrobial peptides.Composition effect on peptide interaction with lipids and bacteria: variants of C3a peptide CNY21.Efficacy of the combination of tachyplesin III and clarithromycin in rat models of Escherichia coli sepsis.Antimicrobial peptides in gastrointestinal inflammationThe CNGRC-GG-D(KLAKLAK)2 peptide induces a caspase-independent, Ca2+-dependent death in human leukemic myeloid cells by targeting surface aminopeptidase N/CD13Synthetic Antimicrobial Peptides Exhibit Two Different Binding Mechanisms to the Lipopolysaccharides Isolated from Pseudomonas aeruginosa and Klebsiella pneumoniae.
P2860
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P2860
Can we predict biological activity of antimicrobial peptides from their interactions with model phospholipid membranes?
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Can we predict biological acti ...... model phospholipid membranes?
@ast
Can we predict biological acti ...... model phospholipid membranes?
@en
type
label
Can we predict biological acti ...... model phospholipid membranes?
@ast
Can we predict biological acti ...... model phospholipid membranes?
@en
prefLabel
Can we predict biological acti ...... model phospholipid membranes?
@ast
Can we predict biological acti ...... model phospholipid membranes?
@en
P1433
P1476
Can we predict biological acti ...... model phospholipid membranes?
@en
P2093
Yechiel Shai
P304
P356
10.1016/J.PEPTIDES.2003.09.013
P577
2003-11-01T00:00:00Z