Cortical actin networks induce spatio-temporal confinement of phospholipids in the plasma membrane--a minimally invasive investigation by STED-FCS.
about
Current approaches to studying membrane organizationConfined diffusion of transmembrane proteins and lipids induced by the same actin meshwork lining the plasma membrane.There Is No Simple Model of the Plasma Membrane OrganizationSpatiotemporal Fluctuation Analysis: A Powerful Tool for the Future Nanoscopy of Molecular ProcessesSelf-organizing actin patterns shape membrane architecture but not cell mechanics.STED-FLCS: An Advanced Tool to Reveal Spatiotemporal Heterogeneity of Molecular Membrane DynamicsDetermination of Dynamics of Plant Plasma Membrane Proteins with Fluorescence Recovery and Raster Image Correlation Spectroscopy.Mechanics of Biomimetic Liposomes Encapsulating an Actin ShellSelf assembly of HIV-1 Gag protein on lipid membranes generates PI(4,5)P2/Cholesterol nanoclustersFunctional nanoscale coupling of Lyn kinase with IgE-FcεRI is restricted by the actin cytoskeleton in early antigen-stimulated signalingSphingolipid Organization in the Plasma Membrane and the Mechanisms That Influence ItPlasma Membrane is Compartmentalized by a Self-Similar Cortical Actin MeshworkReorganization of Lipid Diffusion by Myelin Basic Protein as Revealed by STED Nanoscopy.Convergence of lateral dynamic measurements in the plasma membrane of live cells from single particle tracking and STED-FCS.Diffusion of lipids and GPI-anchored proteins in actin-free plasma membrane vesicles measured by STED-FCS.MreB-Dependent Organization of the E. coli Cytoplasmic Membrane Controls Membrane Protein Diffusion.Recent Advances in the Analysis of Single Cells.Super-Resolution Microscopy: Shedding Light on the Cellular Plasma Membrane.Cell-cell adhesion interface: rise of the lateral membrane.Super-resolution optical microscopy for studying membrane structure and dynamics.A straightforward approach for gated STED-FCS to investigate lipid membrane dynamics.Nanoscopic compartmentalization of membrane protein motion at the axon initial segmentDissecting the actin cortex density and membrane-cortex distance in living cells by super-resolution microscopy.Advanced fluorescence microscopy techniques for the life sciences.Toward Hydrodynamics with Solvent Free Lipid Models: STRD Martini.Dynamic Meso-Scale Anchorage of GPI-Anchored Receptors in the Plasma Membrane: Prion Protein vs. Thy1.Advances in Imaging Plant Cell Dynamics.Fluorescence nanoscopy in cell biology.Nanoscale dynamics of phospholipids reveals an optimal assembly mechanism of pore-forming proteins in bilayer membranes.The Actin/Spectrin Membrane-Associated Periodic Skeleton in Neurons.Numerical Simulation and FRAP Experiments Show That the Plasma Membrane Binding Protein PH-EFA6 Does Not Exhibit Anomalous Subdiffusion in Cells
P2860
Q26766176-A5694C83-2CBD-4F81-AF5A-0A29F149C36FQ27306086-5200F411-4A81-49C5-8EC4-A91DCC317851Q28067186-839D8C4F-7352-47A9-BFCD-9AC11E6E9256Q28069491-E33BDB4A-F848-4C36-B953-A845CD78293CQ30839199-D74A80FA-F365-4E7D-90B5-A42917BBF9B6Q35733868-9A92E41B-F168-4CFB-AE32-B55B06F667ACQ35978657-DE35B52C-E32F-4C56-A7A7-C8B586EEC3CEQ36429569-D2F36DF2-26DA-486D-9BC4-86518F90D86EQ37529378-74D8EBD8-40FF-4D20-AB81-68641F5EEF93Q37573303-EA944465-1D27-423D-97CD-FCCCA09ED22EQ37574812-2AFA9FEE-7902-431F-BF75-B660D8DDE2F3Q38687225-ADC25F9D-89EB-4E4A-BE09-B033FCBC8EDBQ38765892-887F4256-AEC3-4AB2-90C5-469BE5F3CE7FQ38811732-64D918B7-9C5C-4160-A918-E21448EF3C04Q38839465-501E4A1E-61C8-4E9C-80EA-75E2E81E15FCQ38950736-C15A04D2-4B8C-4A99-BBA4-E064C11EC006Q39096238-D3FE32C4-B06C-4416-9D86-9E18EE7FA908Q39140535-52A62E58-9C58-44D3-ACA6-D9FC0A595CFEQ39207827-CDD330FC-E421-44E6-8D5F-58D1D6D93D35Q39290463-DE0DCF87-3688-457A-8F39-C359D783A783Q40784680-1FEC811F-6491-4F93-8A4A-8E9E35372B0AQ41391738-319AED04-D42A-46A9-A365-0AAD1251EA44Q42291693-B1C94F61-AB12-4A97-A62E-682CCCCEF09EQ42378621-20243E5E-54DB-43AE-BD06-2935B02C5AD6Q46596199-04E6775F-8573-4701-8370-CB5FD0B04A58Q47153809-8E7C2CBB-408E-4BFF-A42C-967807CE89FBQ48251026-865C4015-8837-47EA-9F2D-7F0BE5D4AA8DQ50216769-ED4A66A8-EB45-486A-88CC-0748C20090F6Q51112810-678A6944-7C17-452D-8ECD-B3E3C5247D04Q55346848-46864C64-399B-458C-90BF-27F59C23FD0AQ58762479-05DCE622-B572-412C-B0E6-C39D42EE092E
P2860
Cortical actin networks induce spatio-temporal confinement of phospholipids in the plasma membrane--a minimally invasive investigation by STED-FCS.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Cortical actin networks induce ...... ive investigation by STED-FCS.
@ast
Cortical actin networks induce ...... ive investigation by STED-FCS.
@en
type
label
Cortical actin networks induce ...... ive investigation by STED-FCS.
@ast
Cortical actin networks induce ...... ive investigation by STED-FCS.
@en
prefLabel
Cortical actin networks induce ...... ive investigation by STED-FCS.
@ast
Cortical actin networks induce ...... ive investigation by STED-FCS.
@en
P2093
P2860
P50
P356
P1433
P1476
Cortical actin networks induce ...... ive investigation by STED-FCS.
@en
P2093
B Christoffer Lagerholm
Congying Wu
Débora M Andrade
James E Bear
Jan Keller
Veronika Mueller
P2860
P2888
P356
10.1038/SREP11454
P407
P577
2015-06-29T00:00:00Z