Insertion and pore formation driven by adsorption of proteins onto lipid bilayer membrane-water interfaces.
about
Structural changes and proapoptotic peroxidase activity of cardiolipin-bound mitochondrial cytochrome cInteraction of viscotoxins A3 and B with membrane model systems: implications to their mechanism of actionCytochrome c-lipid interactions: new insights from resonance energy transferTriggering and visualizing the aggregation and fusion of lipid membranes in microfluidic chambersInvestigation on the aggregation behaviors of DDAB/NaDEHP catanionic vesicles in the absence and presence of a negatively charged polyelectrolyte.Oligomerization of fusogenic peptides promotes membrane fusion by enhancing membrane destabilizationCytochrome c adsorption to supported, anionic lipid bilayers studied via atomic force microscopy.Entropic tension in crowded membranesCytochrome C interaction with cardiolipin/phosphatidylcholine model membranes: effect of cardiolipin protonation.Binding of lysozyme to phospholipid bilayers: evidence for protein aggregation upon membrane associationMultiscale models of the antimicrobial peptide protegrin-1 on gram-negative bacteria membranes.Photosynthetic Proteins in Supported Lipid Bilayers: Towards a Biokleptic Approach for Energy Capture.Crowding effects of membrane proteins.Energetics and self-assembly of amphipathic peptide pores in lipid membranes.Analyzing heat capacity profiles of peptide-containing membranes: cluster formation of gramicidin A.Membrane perturbation induced by interfacially adsorbed peptides.Interaction of horse heart and thermus thermophilus type c cytochromes with phospholipid vesicles and hydrophobic surfaces.Mechanism of membrane activity of the antibiotic trichogin GA IV: a two-state transition controlled by peptide concentration.Diffusion and partitioning of fluorescent lipid probes in phospholipid monolayers.The influence of vesicle size and composition on alpha-synuclein structure and stability.Interactions involved in the realignment of membrane-associated helices. An investigation using oriented solid-state NMR and attenuated total reflection Fourier transform infrared spectroscopies.Coexistence of a two-states organization for a cell-penetrating peptide in lipid bilayer.Loading capacity and interaction of DNA binding on catanionic vesicles with different cationic surfactants.Penetration of lysozyme and cytochrome C in lipid bilayer: fluorescent study.Thermal fluctuation and elasticity of lipid vesicles interacting with pore-forming peptides.Translocation of amino acyl residues from the membrane interface to the hydrophobic core: thermodynamic model and experimental analysis using ATR-FTIR spectroscopy.A mitochondria-targeted antioxidant can inhibit peroxidase activity of cytochrome c by detachment of the protein from liposomes.
P2860
Q24169865-1AB70E44-F6E1-4017-9E9C-CAB91A67A987Q24537673-92375EF4-5C22-4BA9-8B40-759BC73CA1E7Q28383400-D0846671-478A-4E3C-8AED-6997BF192C76Q30477428-92096699-C383-452D-B946-D28E517CBA52Q33825123-D0BC46BF-7F09-4C27-9A28-40AE3125F1D5Q34184290-0EA1AF55-6BB8-4B19-8E4F-BF094F4ECD8FQ34187696-510E4234-0A6F-43E3-8A17-F228D6D14388Q34205855-697CE053-D8CB-4F63-ACF5-32ACDA48C0B5Q34600984-59A215E7-A897-4213-88A8-087A1B129164Q35881297-F668B9F1-843C-4EB1-9BD7-2C65EA87CB40Q36321744-8072F9DD-2A93-4303-A949-32881FD9488DQ38366418-77C8EB16-2A05-4E6C-BADF-B4E12B34F694Q39992184-6BB73F0D-8E4C-4976-B847-C3FE63764186Q40233124-79DFE5FC-A911-4AB8-8BFB-AE12B289F2D6Q40233673-C0139788-1071-4F85-A3F9-439E06E0205CQ40284484-22E33769-631C-4B88-84CB-32B75A2A0F48Q40285438-0079646A-CD84-49C2-9A0B-DAEE6BCD2AEBQ40329334-D1DF3889-14F1-4873-903D-80CDDE1F23F8Q42055249-95D778DD-D1BC-446D-B570-A12F6ECB7FF6Q42141525-56308A28-CDF7-4556-8DC1-570E3A90C3A9Q42677845-61AAA20B-AB22-4387-8DD3-86A378AFB1A0Q43203322-A7D6F99B-B4DE-4A93-A613-DD08DA1E4A75Q43726473-13BA02FC-DDE2-49F8-87DA-30216A5CBFFCQ44049302-9A21C1B1-B948-4CFE-90CC-65D41DCC79B2Q49732442-E14EDB83-E0B9-40F4-9678-7DF347562B81Q50724209-3A0796CA-A7EF-447A-A2B1-F4D85C1F9073Q51485839-A2F41E51-3B85-414C-AF40-6DB5CD7D03AE
P2860
Insertion and pore formation driven by adsorption of proteins onto lipid bilayer membrane-water interfaces.
description
2001 nî lūn-bûn
@nan
2001 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Insertion and pore formation d ...... ayer membrane-water interfaces
@nl
Insertion and pore formation d ...... yer membrane-water interfaces.
@ast
Insertion and pore formation d ...... yer membrane-water interfaces.
@en
type
label
Insertion and pore formation d ...... ayer membrane-water interfaces
@nl
Insertion and pore formation d ...... yer membrane-water interfaces.
@ast
Insertion and pore formation d ...... yer membrane-water interfaces.
@en
prefLabel
Insertion and pore formation d ...... ayer membrane-water interfaces
@nl
Insertion and pore formation d ...... yer membrane-water interfaces.
@ast
Insertion and pore formation d ...... yer membrane-water interfaces.
@en
P2860
P1433
P1476
Insertion and pore formation d ...... yer membrane-water interfaces.
@en
P2093
Heimburg T
Zuckermann MJ
P2860
P304
P356
10.1016/S0006-3495(01)75892-4
P407
P577
2001-11-01T00:00:00Z