Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
about
Structure of lipid bilayersStructural Significance of Lipid Diversity as Studied by Small Angle Neutron and X-ray ScatteringMolecular simulation of dioleoylphosphatidylcholine lipid bilayers at differing levels of hydration.X-ray structure, thermodynamics, elastic properties and MD simulations of cardiolipin/dimyristoylphosphatidylcholine mixed membranesElectrochemical and photon polarization modulation infrared reflection absorption spectroscopy study of the electric field driven transformations of a phospholipid bilayer supported at a gold electrode surface.Effects of cholesterol and unsaturated DOPC lipid on chain packing of saturated gel-phase DPPC bilayers.Morphology transition in lipid vesicles due to in-plane order and topological defects.Hybrid bilayer membranes in air and water: infrared spectroscopy and neutron reflectivity studies.Structure and fluctuations of charged phosphatidylserine bilayers in the absence of saltHighly aligned lipid membrane systems in the physiologically relevant "excess water" condition.Re-analysis of magic angle spinning nuclear magnetic resonance determination of interlamellar waters in lipid bilayer dispersions.Alamethicin aggregation in lipid membranes.Small scale membrane mechanicsCharacterization of the water defect at the HIV-1 gp41 membrane spanning domain in bilayers with and without cholesterol using molecular simulations.Comparing lipid membranes in different environmentsMolecular dynamics simulation of unsaturated lipid bilayers at low hydration: parameterization and comparison with diffraction studies.On a possible microscopic mechanism underlying the vapor pressure paradox.Small-angle x-ray scattering from lipid bilayers is well described by modified Caillé theory but not by paracrystalline theory.Molecular dynamics investigation of the structure of a fully hydrated gel-phase dipalmitoylphosphatidylcholine bilayerX-ray structure determination of fully hydrated L alpha phase dipalmitoylphosphatidylcholine bilayersLipid bilayer structureStructure and interactive properties of highly fluorinated phospholipid bilayers.IR spectroscopic study of the structure and phase behavior of long-chain diacylphosphatidylcholines in the gel state.Temperature dependence of the repulsive pressure between phosphatidylcholine bilayers.Evidence of partial rotational order in gel phase DPPCArea/lipid of bilayers from NMR.The ELBA force field for coarse-grain modeling of lipid membranesCharacterization of complexes formed in fully hydrated dispersions of dipalmitoyl derivatives of phosphatidylcholine and diacylglycerolEffect of substrate roughness on D spacing supports theoretical resolution of vapor pressure paradoxStructure and interactions of fully hydrated dioleoylphosphatidylcholine bilayers.Adsorbed to a rigid substrate, dimyristoylphosphatidylcholine multibilayers attain full hydration in all mesophases.Molecular dynamics simulations of supported phospholipid/alkanethiol bilayers on a gold(111) surfaceArea per lipid and acyl length distributions in fluid phosphatidylcholines determined by (2)H NMR spectroscopy.Structure of gel phase DMPC determined by X-ray diffractionStructure of fully hydrated fluid phase DMPC and DLPC lipid bilayers using X-ray scattering from oriented multilamellar arrays and from unilamellar vesicles.Structure of the DMPC lipid bilayer ripple phaseLipid bilayers: thermodynamics, structure, fluctuations, and interactions.Halothane changes the domain structure of a binary lipid membrane.Derivation and systematic validation of a refined all-atom force field for phosphatidylcholine lipidsHIV-1 fusion peptide decreases bending energy and promotes curved fusion intermediates.
P2860
Q24650796-C34D1426-50A8-4C25-92C3-0F352A1A7312Q26781507-330345B1-4D9F-43D6-BAB7-7191A2C5BDC3Q28365096-38FC54BD-7760-4DB0-92D8-E414F1332D43Q28386282-D2C09B00-EF00-43FC-8AFB-4106B5834F7AQ30476434-2EADCB2E-6CD7-4CFF-A46D-6F414873CF00Q30487376-249862F7-F86D-46F8-92AF-26EA7697B68DQ30537129-7D1EA05C-B400-409F-9995-CE2A9E72F842Q30538939-7FD7B9C5-444D-4FC0-B427-DA30BF812BA6Q30909207-D3B9D4D5-0431-47FC-AED9-F1255ED5C515Q32163263-5E780FA1-88AD-42B3-B0E1-71BA70C95382Q33178982-52404A8E-D767-47A7-842D-FA460F6392DEQ33620637-C9390A12-D559-49BD-BD3F-F11501FEB891Q33632506-4D11534D-91F1-4D78-B2C7-7EC6057E9A03Q33694260-8141459A-B073-4AD7-AC07-ADA750708F1FQ33736976-6B9C5C2B-2B9D-4983-903F-8003F991AF68Q33907701-E2344DC5-B7B9-4A39-A0FB-CAE1DE9D515FQ33916927-75AC29BA-A34D-48FC-827F-D200BBC4D046Q34016978-D5415348-0EC4-4875-852C-B689B13E6192Q34017099-44B3C811-1F48-4170-876E-8F0A97662F22Q34017418-0A535F6A-2636-4ADD-AE04-2FA9AD1DCACEQ34029201-603A6613-A0BB-429A-AA19-9F9F9B5E9E4CQ34040705-DB75F3F2-4EAC-401E-8488-6E08F790F9AAQ34041290-3DED4D10-AA2E-4B7D-AA8F-EF2ADE566F49Q34047347-18ADD74C-F427-422D-8781-7E7B39F98DFBQ34092349-B0337A63-BACF-41E3-833F-A8868BA57878Q34092451-38F73EF7-653B-4950-BB09-E8505E74C604Q34110221-8F76C8CA-88C4-412C-BD25-1480AD38D7CAQ34129150-5C9A1692-66C8-40CD-940E-127C2A74D815Q34167418-8A5D0D8B-AFC7-401D-AEEE-02DB07198296Q34168695-5D9441DB-E003-4434-95D1-70D9A6982D9AQ34169265-CC61FF29-6858-41E8-9474-A67353B4E1BAQ34171074-6C7B9E38-9A46-487C-A9A1-5CD6135C6EB7Q34174573-D7598977-7276-457E-A80E-B82C9A025A25Q34179432-5E962024-B3E6-48D6-92E8-8D849FDCF97FQ34189750-6DE10727-D684-41AB-87DE-E99BF185B325Q35002121-B93D5976-B3F3-4B6B-BFF5-92174A05204BQ35620951-38E98311-6A5E-406E-921E-DAEDDBDD1936Q35827888-0A897FE2-40B0-479B-AF62-8BE31A7A770DQ35873948-59083FA6-50A1-4FAE-8C7D-D5F414438B54Q35963407-A05976EB-CFD3-4B2A-8AAA-106BF095FA0A
P2860
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
description
1993 nî lūn-bûn
@nan
1993 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1993 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
name
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@ast
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@en
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@nl
type
label
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@ast
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@en
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@nl
prefLabel
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@ast
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@en
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@nl
P2093
P2860
P1433
P1476
Measurement of chain tilt angle in fully hydrated bilayers of gel phase lecithins.
@en
P2093
C R Worthington
S Tristram-Nagle
P2860
P304
P356
10.1016/S0006-3495(93)81475-9
P407
P577
1993-04-01T00:00:00Z