Reduced lateral mobility of lipids and proteins in crowded membranes.
about
How drugs get into cells: tested and testable predictions to help discriminate between transporter-mediated uptake and lipoidal bilayer diffusionMolecular dynamics simulations of membrane proteins and their interactions: from nanoscale to mesoscaleMolecular dynamics simulations of biological membranes and membrane proteins using enhanced conformational sampling algorithmsProtein-protein interactions and the spatiotemporal dynamics of bacterial outer membrane proteinsMolecular Simulations of Gram-Negative Bacterial Membranes: A Vignette of Some Recent SuccessesSupramolecular assemblies underpin turnover of outer membrane proteins in bacteria.Preferred supramolecular organization and dimer interfaces of opioid receptors from simulated self-associationMolecular dynamics simulations of the bacterial UraA H+-uracil symporter in lipid bilayers reveal a closed state and a selective interaction with cardiolipinN-glycosylation enables high lateral mobility of GPI-anchored proteins at a molecular crowding thresholdComputational virology: From the inside outMolecular simulations of glycolipids: Towards mammalian cell membrane modelsMethodologies for the analysis of instantaneous lipid diffusion in MD simulations of large membrane systems.Membrane Protein Structure, Function, and Dynamics: a Perspective from Experiments and Theory.Beyond Membrane Protein Structure: Drug Discovery, Dynamics and Difficulties.Interactions of protein kinase C-α C1A and C1B domains with membranes: a combined computational and experimental study.Nothing to sneeze at: a dynamic and integrative computational model of an influenza A virion.Lipid clustering correlates with membrane curvature as revealed by molecular simulations of complex lipid bilayersProtein Crowding Is a Determinant of Lipid Droplet Protein Composition.Dynamics of Crowded Vesicles: Local and Global Responses to Membrane Composition.Membrane stiffness is modified by integral membrane proteins.Perspective on the Martini model.Role of the Native Outer-Membrane Environment on the Transporter BtuB.The Ebola virus protein VP40 hexamer enhances the clustering of PI(4,5)P2 lipids in the plasma membrane.Effect of fish oil on lateral mobility of prostaglandin F2α (FP) receptors and spatial distribution of lipid microdomains in bovine luteal cell plasma membrane in vitro.The Integrin Receptor in Biologically Relevant Bilayers: Insights from Molecular Dynamics Simulations.The juxtamembrane regions of human receptor tyrosine kinases exhibit conserved interaction sites with anionic lipids.Membrane Compartmentalization Reducing the Mobility of Lipids and Proteins within a Model Plasma Membrane.Organization and Dynamics of Receptor Proteins in a Plasma Membrane.Model parameters for simulation of physiological lipidsThe molecular size of the extra-membrane domain influences the diffusion of the GPI-anchored VSG on the trypanosome plasma membraneThe free energy landscape of dimerization of a membrane protein, NanC.Membrane orientation and lateral diffusion of BODIPY-cholesterol as a function of probe structure.Alchembed: A Computational Method for Incorporating Multiple Proteins into Complex Lipid Geometries.Anomalous Dynamics of a Lipid Recognition Protein on a Membrane Surface.The NorM MATE transporter from N. gonorrhoeae: insights into drug and ion binding from atomistic molecular dynamics simulationsProtein crowding and lipid complexity influence the nanoscale dynamic organization of ion channels in cell membranes.Excessive aggregation of membrane proteins in the Martini model.Ist1 regulates ESCRT-III assembly and function during multivesicular endosome biogenesis in Caenorhabditis elegans embryos.Diffusion of small particles in polymer films.Aging underdamped scaled Brownian motion: Ensemble- and time-averaged particle displacements, nonergodicity, and the failure of the overdamping approximation.
P2860
Q24273350-1D7C7F58-8A2E-445C-A3B0-5F0A8210FEE0Q26747182-96840AD4-D2D4-4840-A4E3-5CF61D392AD9Q26772040-273C30B5-D026-4937-96B1-EFAF85458484Q26775359-F1B79A37-18C9-40E5-A138-33612E25C93AQ26798390-4A3BE769-E952-4589-A204-C1642EB8F4C5Q27316678-276B12CA-63B5-4095-9EFA-85E67A0F56BCQ27319797-B70C484C-B278-440A-AADC-2B25F71769B6Q27319873-71EFFC62-FD66-45BB-888F-41C6738509E8Q27325470-78C1419C-DA72-4CCF-B25C-D28AA7E0250AQ28068453-2411B56F-FD1C-4498-917A-DCB10B2C37A8Q28084686-1C40C974-E6BF-40B3-B36D-B82CFF84099CQ28654438-B4B3C947-1AFA-40B0-AC85-1AAB5B68178FQ30375519-F44067EF-5922-4A8B-84AB-2371EB679D6BQ30392142-0197B411-A1C9-4F5B-ABB5-7817A4607B2BQ34074459-57032BED-5C9B-4B21-AFFD-4BA7F40FEFB8Q35159367-3351E4F1-1F05-4F1A-9BA3-23F256402856Q35362110-0C458E6A-D9E1-485A-A6FC-102579AD5705Q35952216-C7F59C12-A6EC-4EB0-ACC5-8479F30B2528Q36054444-7DE99DFE-28F0-4213-AAA9-EEEACAE43627Q37649312-EC90A0B6-4105-4CE0-BA03-D4BC2387554FQ38109488-A7653972-EE96-4E3B-A561-87E8DD0AEA6AQ38290733-52009975-CE6C-47D3-8979-5F2F399A43A8Q39273541-33D2C696-CA89-484E-B57C-E19126C5A992Q39374722-D79D977A-5E8A-4273-B3EA-3E2CB331CB0FQ39552692-510BFAC6-7611-4AFD-BEEB-4812453DFFA5Q41206091-4773B910-F879-44DC-932A-95BB8B1616BCQ41372055-19605214-A461-47D3-A96A-7BA594D02C1EQ41462931-39E00A1D-56B3-4203-A22E-122E4F5B680FQ41484392-9DB22179-EEA7-4420-8E17-4753C3D9F57BQ41774720-3E5276BA-A508-420D-A610-1ECCAD98EC0DQ41862751-8906A62F-8124-44A9-A2B3-9CF142ADB010Q42108783-6E59AE2B-58F1-49D9-807B-341FB7AB0E76Q42119717-DB649E1F-DC20-449C-85B7-C31ACD0FFDD3Q42648961-BC477F60-7C60-405A-B13E-84A8D807F112Q42740139-2E0D0510-1DEF-4F38-9F75-FFD262E91B29Q47109759-FF6AFCEF-E9BC-4F0C-8F17-CE6AC6F6946EQ47113820-962FDF67-2DC5-4D0F-B221-8CA164D1ED50Q47148320-183ABDF7-3D3A-4DB6-A7AC-4172ED7C58D3Q47773766-23138305-389B-4EF9-8ED0-DC9AE740DC69Q47969148-F6895DF5-F718-4FBC-93AF-87563A006EC7
P2860
Reduced lateral mobility of lipids and proteins in crowded membranes.
description
2013 nî lūn-bûn
@nan
2013 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Reduced lateral mobility of lipids and proteins in crowded membranes.
@ast
Reduced lateral mobility of lipids and proteins in crowded membranes.
@en
Reduced lateral mobility of lipids and proteins in crowded membranes.
@nl
type
label
Reduced lateral mobility of lipids and proteins in crowded membranes.
@ast
Reduced lateral mobility of lipids and proteins in crowded membranes.
@en
Reduced lateral mobility of lipids and proteins in crowded membranes.
@nl
prefLabel
Reduced lateral mobility of lipids and proteins in crowded membranes.
@ast
Reduced lateral mobility of lipids and proteins in crowded membranes.
@en
Reduced lateral mobility of lipids and proteins in crowded membranes.
@nl
P2860
P1476
Reduced lateral mobility of lipids and proteins in crowded membranes.
@en
P2093
Joseph E Goose
Mark S P Sansom
P2860
P304
P356
10.1371/JOURNAL.PCBI.1003033
P577
2013-04-11T00:00:00Z