0000000000418914

AUTHOR

Sergii Afonin

showing 3 related works from this author

The Alignment of Membrane-Active Peptides Depends on the Lipid Phase State as Viewed by solid state 19F-NMR

2009

Amphipathic membrane-active peptides (antimicrobial, hemolytic, cell-penetrating, fusogenic, etc.) achieve their functions by distinct interaction with lipid bilayers. Some typical structural modes are described in terms of models like the “barrel stave”, “toroidal pore”, “carpet” etc. These models are related to the alignment states of the peptides in the lipid bilayers (surface bound “S-state”, inserted “I-state” or tilted “T-state”), which can be readily characterized by solid state NMR. When determining such alignment, factors like peptide/lipid ratio, charge of the bilayer surface, thickness of the bilayer core, presence of cholesterol, and humidity are typically investigated. Yet, the…

AlamethicinBilayerBiophysicsMagaininLipid bilayer fusionBiological membranechemistry.chemical_compoundCrystallographychemistryBiophysicsGramicidinlipids (amino acids peptides and proteins)Lipid bilayer phase behaviorLipid bilayerBiophysical Journal
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Solid State NMR Structure Analysis of the Antimicrobial Peptide Gramicidin S in Lipid Membranes: Concentration-Dependent Re-alignment and Self-Assemb…

2008

Antimicrobial peptides can kill bacteria by permeabilizing their cell membrane, as these amphiphilicmolecules interact favourably with lipid bilayers. This mechanism of action is attributed eitherto the formation of a peptide “carpet” on the membrane surface, or to a transmembranepore. However, the structure of such a pore has not yet been resolved under relevant conditions.Gramicidin S is a symmetrical cyclic β-sheet decapeptide, which has been previouslyshown by solid state NMR to lie flat on the membrane surface at low peptide:lipid ratios (≤ 1:80).Using highly sensitive 19F-NMR, supported by 15N-labelling,we found that gramicidin S can flip into an upright transmembrane alignment at hig…

chemistry.chemical_classificationchemistry.chemical_compoundMembranechemistryPeripheral membrane proteinMembrane fluidityBiophysicsOrganic chemistryPeptideLipid bilayer phase behaviorGramicidin SModel lipid bilayerLipid bilayer
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(19)F NMR screening of unrelated antimicrobial peptides shows that membrane interactions are largely governed by lipids.

2014

AbstractMany amphiphilic antimicrobial peptides permeabilize bacterial membranes via successive steps of binding, re-alignment and/or oligomerization. Here, we have systematically compared the lipid interactions of two structurally unrelated peptides: the cyclic β-pleated gramicidin S (GS), and the α-helical PGLa. 19F NMR was used to screen their molecular alignment in various model membranes over a wide range of temperatures. Both peptides were found to respond to the phase state and composition of these different samples in a similar way. In phosphatidylcholines, both peptides first bind to the bilayer surface. Above a certain threshold concentration they can re-align and immerse more dee…

Membrane lipidsAntimicrobial peptidesAmphiphilic antimicrobial peptidesLipid BilayersBiophysicsBiochemistryProtein Structure Secondarychemistry.chemical_compoundMembrane LipidsHumansAmino Acid SequenceProtein PrecursorsLipid bilayerNuclear Magnetic Resonance BiomolecularBacteriaBilayerPeripheral membrane proteinLipid compositionCell MembraneGramicidinBiological membraneRe-alignment in membraneCell BiologyMembraneBiochemistrychemistryGramicidinBiophysicsBacterial membranesSpontaneous curvatureSolid state 19F NMR structure analysis
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