Probing the "charge cluster mechanism" in amphipathic helical cationic antimicrobial peptides.
about
On the role of NMR spectroscopy for characterization of antimicrobial peptidesNovel lynx spider toxin shares common molecular architecture with defense peptides from frog skinAntimicrobial Peptides Targeting Gram-Positive BacteriaLatarcins: versatile spider venom peptidesHost-defense peptides with therapeutic potential from skin secretions of frogs from the family pipidaeSolid-state ¹³C NMR reveals annealing of raft-like membranes containing cholesterol by the intrinsically disordered protein α-SynucleinMembrane-dependent conformation, dynamics, and lipid interactions of the fusion peptide of the paramyxovirus PIV5 from solid-state NMRSimulations of Membrane-Disrupting Peptides II: AMP Piscidin 1 Favors Surface Defects over PoresSide chain hydrophobicity modulates therapeutic activity and membrane selectivity of antimicrobial peptide mastoparan-X.Combined systems approaches reveal highly plastic responses to antimicrobial peptide challenge in Escherichia coli.Amphipathic helical cationic antimicrobial peptides promote rapid formation of crystalline states in the presence of phosphatidylglycerol: lipid clustering in anionic membranesDescribing the mechanism of antimicrobial peptide action with the interfacial activity modelSnake venoms: attractive antimicrobial proteinaceous compounds for therapeutic purposes.Probing protein sequences as sources for encrypted antimicrobial peptidesHost defense peptides: an alternative as antiinfective and immunomodulatory therapeutics.pH-dependent disruption of Escherichia coli ATCC 25922 and model membranes by the human antimicrobial peptides hepcidin 20 and 25.Membrane interaction of antimicrobial peptides using E. coli lipid extract as model bacterial cell membranes and SFG spectroscopyMembrane-Active Small Molecules: Designs Inspired by Antimicrobial Peptides.Determining the mechanism of membrane permeabilizing peptides: identification of potent, equilibrium pore-formersDoes cholesterol suppress the antimicrobial peptide induced disruption of lipid raft containing membranes?Proline facilitates membrane insertion of the antimicrobial peptide maculatin 1.1 via surface indentation and subsequent lipid disorderingLipid composition-dependent membrane fragmentation and pore-forming mechanisms of membrane disruption by pexiganan (MSI-78)A 2H solid-state NMR study of lipid clustering by cationic antimicrobial and cell-penetrating peptides in model bacterial membranes.Antimicrobial Peptide Potency is Facilitated by Greater Conformational Flexibility when Binding to Gram-negative Bacterial Inner Membranes.Antimicrobial peptides: successes, challenges and unanswered questions.Bacterial membrane lipids in the action of antimicrobial agents.Antimicrobial peptides and skin: a paradigm of translational medicine.Molecular understanding of a potential functional link between antimicrobial and amyloid peptides.Highly efficient macromolecule-sized poration of lipid bilayers by a synthetically evolved peptideHuman Antimicrobial Peptides in Bodily Fluids: Current Knowledge and Therapeutic Perspectives in the Postantibiotic Era.Conformational flexibility determines selectivity and antibacterial, antiplasmodial, and anticancer potency of cationic α-helical peptides.The electrical response of bilayers to the bee venom toxin melittin: evidence for transient bilayer permeabilization.Translational biophysics: the physical sciences in molecular medicine.Knowledge-based computational methods for identifying or designing novel, non-homologous antimicrobial peptides.Selective acylation enhances membrane charge sensitivity of the antimicrobial peptide mastoparan-x.A broad-spectrum bactericidal lipopeptide with anti-biofilm properties.Isoeugenol has a non-disruptive detergent-like mechanism of actionImproved model systems for bacterial membranes from differing species: the importance of varying composition in PE/PG/cardiolipin ternary mixtures.Thermodynamic profiling of peptide membrane interactions by isothermal titration calorimetry: a search for pores and micelles.Does cholesterol play a role in the bacterial selectivity of antimicrobial peptides?
P2860
Q26830116-E3BD75DC-9CFA-4693-8C7D-90A9D0A0CEDDQ27674326-28A88639-7F3F-4894-9AE7-294042D88781Q28077888-46550764-97CC-44CC-97DB-16FF75D8A9A6Q28266394-852E7CF8-FF21-44B4-AD9E-3EE410D90F8AQ28659477-E798B7ED-9652-4EF8-A24C-40B44816A447Q28817941-AEE82E3C-01F6-4A0A-92BE-23AB6A8C93C8Q30578580-59985CAC-8A3F-497A-9E70-7926740845ABQ31132190-28220BDE-B327-40DC-BAFB-519C7584D7CDQ31153948-0D268BCD-A7BA-427A-9FC4-A0E8F65FB06EQ33553752-8CD25AE0-5222-4107-968A-3B6BF8F57CF6Q33880213-454DD21D-2863-44D7-AD85-6180605CBC97Q34204118-0905F780-BFB4-4D45-BD5C-837EE998D067Q34343652-F955609E-3008-41A2-87FF-079AB67B6D8BQ34430210-594945D0-9C89-4F98-9DBB-26E074C1CFAEQ34495298-791938DD-17DD-422F-96A1-DCA4E7ABEBBAQ34669079-B8C8F65E-8463-4715-97BA-13BFC2890E93Q35269863-414C2004-F711-477F-9015-4B07566712B4Q35781198-C69E2364-00A5-4D82-8A53-84850DE37829Q36191769-8C6B4EF8-C084-4763-B27C-ED19C2BD273DQ36269148-217F737A-CA71-4CA5-943F-4BF6AD9C990DQ36742771-9FE9F239-C8FC-45C0-9E37-27124F0D292CQ37227423-835BBECD-07C3-40ED-9C90-BAA2FF37A43CQ37337990-8E10BBCB-06BC-483D-B3B2-D6A829AA8F5CQ37428187-F8E0B14E-D816-499D-B8DC-49932943EF9EQ37827731-0BE19788-3C93-40F1-A02A-838B3DEED9A0Q37863657-EA902400-8FB2-4C7B-838B-4268D5325079Q38042296-69937DE7-F1CB-4279-803B-3ACD5154BBBEQ38238202-990D8B1D-ED43-429F-A2C5-9DBE7827BEA2Q38732263-FDEC9527-B6FD-412B-AF2F-9E61200F9294Q39091774-1375536B-C195-4173-8FBB-F61F85C4E568Q39301392-8D805465-D0AE-4A24-8AFE-55A152AC6E5AQ39594972-91381B04-3577-4CE6-8545-20293E9AF1B0Q39768774-A578903F-547D-4E54-8E83-491DD8954538Q39788897-1AAFDED5-0A48-4A6F-BE60-B659AD551D1DQ39792581-74FD0B4E-989E-4ED7-8FEC-28438B49FDC7Q40205283-6A31BB81-B555-4FEE-976D-2314D2968923Q40631310-D109B208-E17B-49B2-93BA-458272EA151BQ41411203-BC1C4488-8EAF-4015-8899-31C3E2E7DC81Q41615436-11DED5F3-7127-48B3-B9C6-0C4BBC3665B4Q42018684-D7243632-77C1-4ADD-A804-41D73279F806
P2860
Probing the "charge cluster mechanism" in amphipathic helical cationic antimicrobial peptides.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh
2010年學術文章
@zh-hant
name
Probing the "charge cluster me ...... tionic antimicrobial peptides.
@en
type
label
Probing the "charge cluster me ...... tionic antimicrobial peptides.
@en
prefLabel
Probing the "charge cluster me ...... tionic antimicrobial peptides.
@en
P2093
P2860
P356
P1433
P1476
Probing the "charge cluster me ...... ationic antimicrobial peptides
@en
P2093
Raquel F Epand
Richard M Epand
W Lee Maloy
P2860
P304
P356
10.1021/BI100378M
P407
P577
2010-05-01T00:00:00Z