about
Noncontact dipole effects on channel permeation. V. Computed potentials for fluorinated gramicidinBarrel-stave model or toroidal model? A case study on melittin pores.Voltage-dependent insertion of alamethicin at phospholipid/water and octane/water interfaces.Analysis and evaluation of channel models: simulations of alamethicin.Structural features that modulate the transmembrane migration of a hydrophobic peptide in lipid vesiclesMembrane orientation of the N-terminal segment of alamethicin determined by solid-state 15N NMRWhole cell patch clamp recording performed on a planar glass chipNoncontact dipole effects on channel permeation. II. Trp conformations and dipole potentials in gramicidin A.Alamethicin aggregation in lipid membranes.Charging the quantum capacitance of graphene with a single biological ion channel.Lipid bilayer regulation of membrane protein function: gramicidin channels as molecular force probesInteractions of alamethicin with model cell membranes investigated using sum frequency generation vibrational spectroscopy in real time in situSelf-assembly behavior of colistin and its prodrug colistin methanesulfonate: implications for solution stability and solubilization.Signal transduction across alamethicin ion channels in the presence of noiseConductivity noise in transmembrane ion channels due to ion concentration fluctuations via diffusionAbsence of effects of low-frequency, low-amplitude magnetic fields on the properties of gramicidin A channels.Two classes of alamethicin transmembrane channels: molecular models from single-channel properties.Molecular dynamics of alamethicin transmembrane channels from open-channel current noise analysis.Noncontact dipole effects on channel permeation. I. Experiments with (5F-indole)Trp13 gramicidin A channels.Cluster organization and pore structure of ion channels formed by beticolin 3, a nonpeptidic fungal toxinAsymmetrical ion-channel model inferred from two-dimensional crystallization of a peptide antibiotic.Polyanions decelerate the kinetics of positively charged gramicidin channels as shown by sensitized photoinactivation.The role of Trp side chains in tuning single proton conduction through gramicidin channels.Enlargement and contracture of C2-ceramide channels.Conformational changes in alamethicin associated with substitution of its alpha-methylalanines with leucines: a FTIR spectroscopic analysis and correlation with channel kineticsConductance studies on trichotoxin_A50E and implications for channel structureStructural conservation of ion conduction pathways in K channels and glutamate receptorsDifferential in vitro activities of ionophore compounds against Plasmodium falciparum and mammalian cellsDetection of single ion channel activity with carbon nanotubesObserving a model ion channel gating action in model cell membranes in real time in situ: membrane potential change induced alamethicin orientation change.The pro-apoptotic proteins, Bid and Bax, cause a limited permeabilization of the mitochondrial outer membrane that is enhanced by cytosol.Persister-promoting bacterial toxin TisB produces anion-selective pores in planar lipid bilayers.Direct visualization of the alamethicin pore formed in a planar phospholipid matrix.Dependence of Alamethicin Membrane Orientation on the Solution Concentration.Hydrogen bond stabilities in membrane-reconstituted alamethicin from amide-resolved hydrogen-exchange measurementsUsing ion channel-forming peptides to quantify protein-ligand interactions.Molecular dynamics simulations of homo-oligomeric bundles embedded within a lipid bilayerAlamethicin in lipid bilayers: combined use of X-ray scattering and MD simulations.Lipid Fluid-Gel Phase Transition Induced Alamethicin Orientational Change Probed by Sum Frequency Generation Vibrational SpectroscopyStructure and alignment of the membrane-associated peptaibols ampullosporin A and alamethicin by oriented 15N and 31P solid-state NMR spectroscopy.
P2860
Q28346142-7969818D-6B91-4E0D-BF20-04B6CEBE86AFQ28346167-C4446CED-149E-4387-92C7-C1FDEE2CFE0FQ28346217-0C1A61F5-293D-47B4-92E2-B5A44E78BC73Q30332186-F7E89FA2-979D-4222-8950-9D4E6B9118C9Q30447535-1F4D7E5C-FD9C-4377-9EB5-09BD9E21AE5EQ30447613-3C05464A-4312-45C3-8095-D941D6974B7BQ32114394-FD4C7629-D96D-4F77-A95D-19D64F354BFFQ33177741-420BC524-D610-4A08-9BC4-17AEA37EEC6BQ33620637-1A5C87D0-D26A-4C23-B2C9-E93B979A503FQ33715981-2150A401-0E28-496A-B9EB-C61465315066Q33743375-17B15EFB-8216-4C6A-9C70-2291F0B3F602Q33749973-C0D2CBD4-8E3D-4753-BA26-FD5AF2921C8FQ33895471-8693C413-7F46-4583-A7F5-01F9DB7793B7Q33907750-3AB998C3-A491-4EEA-8D55-E1F2395ED1CAQ33915695-419E6FB9-FB73-45CF-B64D-85FB1D89A2C0Q34018673-8B53F0E1-0C14-42F7-BB62-F6EDFC8D728BQ34047726-F97E110B-4816-4EA2-A566-07C2A4BE54FBQ34047733-707C95D9-50F5-4C6F-B59D-2879CD696559Q34169546-B07D030C-9BC1-43C2-B60B-AA678F7F5485Q34171926-29E3231F-2AAB-4570-BC2B-32E26CE2FF54Q34173262-7BB88DC1-C7E7-4814-BD8E-A4794A61194FQ34177349-28E83E6A-3152-4D1B-864B-FB0A44DEC783Q34178476-8356AC6E-AF83-41B9-83D1-7C2340971FC5Q34182656-98C838EE-CCE6-4D54-8685-CD670EFFEB3DQ34184276-3C9DC093-23BE-4DBC-9534-8A117558B3BCQ34187044-C3BCAFE9-552E-4E2E-9007-0D657AFB2AE7Q34271863-C84CA530-FD4B-4DC5-9639-E8AEEB85308BQ35122927-EBEDFB81-8804-477A-86B8-16B50119DB43Q35182900-EF04E39F-7C0D-4A31-8EE4-7B6E807BAF8EQ35893745-A30AD292-F19D-41DE-B7DF-D84AC3DDFA06Q36301514-DB6CE9CD-6CC2-4529-84E1-5380C1AF88C0Q36398844-94A11825-9479-4A63-AB3B-6C4ACC338EA3Q36504320-AAE2402C-0B35-4770-9465-FEA6829257CBQ36733647-F2EAD339-A0EF-44C9-B266-B8B366596384Q36817174-51F757D4-2F88-4134-9024-1B08D6FA316CQ37217062-C2687731-5833-4B95-A155-1030ADCCEFA0Q37217175-D1407C62-E086-44FA-BC1D-BE884C0FC65BQ37219599-4268A638-8F5A-4E51-9F8E-3152AA094BD3Q37219922-FE8A7FA0-3BB1-49D3-AC60-C084916380ACQ37260241-F372069E-53F1-4AE4-89B0-B49868AD1198
P2860
description
1992 nî lūn-bûn
@nan
1992 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
Model ion channels: gramicidin and alamethicin.
@ast
Model ion channels: gramicidin and alamethicin.
@en
type
label
Model ion channels: gramicidin and alamethicin.
@ast
Model ion channels: gramicidin and alamethicin.
@en
prefLabel
Model ion channels: gramicidin and alamethicin.
@ast
Model ion channels: gramicidin and alamethicin.
@en
P356
P1476
Model ion channels: gramicidin and alamethicin.
@en
P2093
B A Wallace
G A Woolley
P2888
P304
P356
10.1007/BF00219508
P577
1992-08-01T00:00:00Z