Fluorescence recovery after photobleaching: a versatile tool for mobility and interaction measurements in pharmaceutical research.
about
Identification of biomolecule mass transport and binding rate parameters in living cells by inverse modelingThe transcriptional co-activator LEDGF/p75 displays a dynamic scan-and-lock mechanism for chromatin tetheringAnalysis of binding reactions by fluorescence recovery after photobleachingInteraction of Huntingtin-associated protein-1 with kinesin light chain: implications in intracellular trafficking in neuronsIntracellular macromolecular mobility measured by fluorescence recovery after photobleaching with confocal laser scanning microscopes.Measurement of three-dimensional anisotropic diffusion by multiphoton fluorescence recovery after photobleachingThree-dimensional fluorescence recovery after photobleaching with the confocal scanning laser microscopeSystematic evaluation of FRAP experiments performed in a confocal laser scanning microscope.Line FRAP with the confocal laser scanning microscope for diffusion measurements in small regions of 3-D samplesSystematic evaluation of FRAP experiments performed in a confocal laser scanning microscope--part II: Multiple diffusion processes.A new FRAP/FRAPa method for three-dimensional diffusion measurements based on multiphoton excitation microscopy.Simultaneous detection of intracellular target and off-target binding of small molecule cancer drugs at nanomolar concentrations.Protein diffusion in mammalian cell cytoplasm.Fluorescence recovery after photobleaching investigation of protein transport and exchange in chromatographic mediaStudying Smad2 intranuclear diffusion dynamics by mathematical modelling of FRAP experiments.A two-photon FRAP analysis of the cytoskeleton dynamics in the microvilli of intestinal cells.Regulation of signaling at regions of cell-cell contact by endoplasmic reticulum-bound protein-tyrosine phosphatase 1B.Diffusion anisotropy in collagen gels and tumors: the effect of fiber network orientationSimultaneous measurement of anisotropic solute diffusivity and binding reaction rates in biological tissues by FRAP.Translational diffusion of probe molecules under high pressure: a study by fluorescence recovery after photobleaching technique.Lateral diffusion anisotropy and membrane lipid/skeleton interaction in outer hair cellsLipid lateral mobility in cochlear outer hair cells: regional differences and regulation by cholesterolGlobal nature of dynamic protein-chromatin interactions in vivo: three-dimensional genome scanning and dynamic interaction networks of chromatin proteins.Universal Approach to FRAP Analysis of Arbitrary Bleaching PatternsFluorescence recovery after photobleaching in material and life sciences: putting theory into practice.A finite element model for protein transport in vivo.Defective microtubule-dependent podosome organization in osteoclasts leads to increased bone density in Pyk2(-/-) mice.The tyrosine kinase activity of c-Src regulates actin dynamics and organization of podosomes in osteoclastsMathematical modeling of molecular diffusion through mucus.Spatial distribution and mobility of the Ran GTPase in live interphase cells.Anisotropic solute diffusion tensor in porcine TMJ discs measured by FRAP with spatial Fourier analysis.NAADP and the two-pore channel protein 1 participate in the acrosome reaction in mammalian spermatozoa.Recent developments in fluorescence correlation spectroscopy for diffusion measurements in planar lipid membranes.Enzyme-dependent fluorescence recovery of NADH after photobleaching to assess dehydrogenase activity of isolated perfused hearts.FRAP in pharmaceutical research: practical guidelines and applications in drug delivery.Oil diffusivity through fat crystal networks.A method improving the accuracy of fluorescence recovery after photobleaching analysis.Preventing Obstructions of Nanosized Drug Delivery Systems by the Extracellular Matrix.Patterning Three-Dimensional Hydrogel Microenvironments Using Hyperbranched Polyglycerols for Independent Control of Mesh Size and Stiffness.Three-dimensional intracellular transport in neuron bodies and neurites investigated by label-free dispersion-relation phase spectroscopy.
P2860
Q21245225-FD1E013C-7372-40D9-AD55-C523319F34CDQ24304357-368FB3B2-BD65-4094-B633-50993AF6B168Q24537788-F757D9DC-A1DE-4322-A74D-88AEF476ED70Q28573203-E549981F-2761-4774-9BB3-E7EA5FD1EE62Q30500543-05D01626-6043-4CAB-83D4-931B4B230250Q30573424-299DA366-E773-4D73-AF3B-E798AE450B05Q33193292-02A6ECB5-A706-47DC-8AAF-DAA7E1891708Q33226548-1F510368-F235-4F9E-A57C-C18C2C988D20Q33268495-FAEAB87B-841E-4A41-AD9A-0E0CE0B6A9E6Q33337795-1ABF441C-84E5-490B-84FC-0042A5E952B2Q33351268-0927D5A8-1D57-4742-AAD2-4FFB0961B062Q33621763-9350F202-86FF-4B26-8550-AF2483348F93Q34008764-866E9690-641D-448D-A614-53941B22ACFEQ34079437-2C3FE7A9-F7B1-4B7B-A507-9F822E51A88AQ34159384-233FB0C2-29AE-44F1-954C-83BEC69499D7Q34189031-5A2C5D77-8BF3-4BF2-86D3-44733ED2947BQ34288873-C47FC86B-729A-4618-9D5E-94444BD82E64Q34307013-84BCE0B6-13F1-4878-975F-A907B5385858Q34440934-C3FA44AD-AA0E-4F4A-A52A-D8ED29F72856Q34609836-2C0E49CD-3713-44A4-8DCD-9F1B87C709FDQ34680356-AB63A806-070E-4756-9D94-0A391E20205CQ34884462-F923C917-1027-4ACA-BBD7-93775570EDF6Q35126514-0A6F7800-A521-4C0D-9D7F-96F4BC6A5206Q35673388-EFC6368B-250E-4F41-885D-959C6BD645BBQ35757828-C031B8D0-5910-4AF5-AA34-A4D065318790Q35925676-E62091D4-2CEA-472A-BAA8-8BCEDE9F76FBQ36119294-FA04E915-AFD4-4376-9934-D5208DDDB434Q36325944-7C0F1594-94ED-45EA-AC50-35E29A1B213CQ37107366-9F0BC21F-629D-4456-9780-61E747160A0CQ37392601-9541BB69-B932-43D5-81C3-C43C69102D7CQ37433421-D9D375D0-D23F-45E5-B371-BA13E21BB5ADQ37635358-49C7B0F7-74E9-4B8C-A83F-964B0D9DDE07Q37729842-F242D2D6-BD39-4FAA-B98B-D20B09335C1CQ37731628-79502226-E1ED-4478-846C-CBACAACCCC5FQ38135752-D027CBB2-00A9-4723-96FC-6A211FA916FCQ40847865-DACC0DF7-BE99-4DCD-9518-0BF2B6003567Q41668719-16D677F8-7481-423D-9B05-5867EE077198Q46264786-1D6EAF4A-718B-4062-80E8-EAED467CAE17Q47232426-0B9BDAAD-5980-4442-BB06-A75E0DB3AEFBQ48682718-7D5F1710-C5FD-438A-84E6-70B65AD7677E
P2860
Fluorescence recovery after photobleaching: a versatile tool for mobility and interaction measurements in pharmaceutical research.
description
1999 nî lūn-bûn
@nan
1999 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Fluorescence recovery after ph ...... ts in pharmaceutical research.
@ast
Fluorescence recovery after ph ...... ts in pharmaceutical research.
@en
type
label
Fluorescence recovery after ph ...... ts in pharmaceutical research.
@ast
Fluorescence recovery after ph ...... ts in pharmaceutical research.
@en
prefLabel
Fluorescence recovery after ph ...... ts in pharmaceutical research.
@ast
Fluorescence recovery after ph ...... ts in pharmaceutical research.
@en
P2093
P356
P1476
Fluorescence recovery after ph ...... ts in pharmaceutical research.
@en
P2093
De Smedt SC
Demeester J
Van Oostveldt P
P304
P356
10.1023/A:1011924909138
P577
1999-08-01T00:00:00Z