Graphical representation and multicomponent analysis of single-frequency fluorescence lifetime imaging microscopy data.
about
FRET imaging of hemoglobin concentration in Plasmodium falciparum-infected red cellsProteomic and Microscopic Strategies towards the Analysis of the Cytoskeletal Networks in Major Neuropsychiatric DisordersPTRF-Cavin, a conserved cytoplasmic protein required for caveola formation and functionMaximizing the biochemical resolving power of fluorescence microscopyImaging molecular interactions in living cells.Quantitative imaging of protein interactions in the cell nucleus.Single-quantum dot imaging with a photon counting cameraTime-domain fluorescence lifetime imaging techniques suitable for solid-state imaging sensor arrays.Revealing the sequence of interactions of PuroA peptide with Candida albicans cells by live-cell imagingMulti-component quantitative magnetic resonance imaging by phasor representation.AB-plot assisted determination of fluorophore mixtures in a fluorescence lifetime microscope using spectra or quenchers.Recruitment of the adaptor protein Grb2 to EGFR tetramers.Alpha hemolysin induces an increase of erythrocytes calcium: a FLIM 2-photon phasor analysis approachApplication of non-negative matrix factorization to multispectral FLIM data analysis.Fluorescence lifetime readouts of Troponin-C-based calcium FRET sensors: a quantitative comparison of CFP and mTFP1 as donor fluorophores.Spatio-Temporal Quantification of FRET in living cells by fast time-domain FLIM: a comparative study of non-fitting methods [corrected].Role of PDZK1 protein in apical membrane expression of renal sodium-coupled phosphate transporters.FLIM FRET technology for drug discovery: automated multiwell-plate high-content analysis, multiplexed readouts and application in situ.Rapid global fitting of large fluorescence lifetime imaging microscopy datasets.Subcellular localization-dependent changes in EGFP fluorescence lifetime measured by time-resolved flow cytometryPhasor-based single-molecule fluorescence lifetime imaging using a wide-field photon-counting detector.Phasor approach to fluorescence lifetime microscopy distinguishes different metabolic states of germ cells in a live tissue.A method to quantify FRET stoichiometry with phasor plot analysis and acceptor lifetime ingrowthEncoding and decoding spatio-temporal information for super-resolution microscopy.FRAP, FLIM, and FRET: Detection and analysis of cellular dynamics on a molecular scale using fluorescence microscopy.G-quadruplex structure and stability illuminated by 2-aminopurine phasor plotsPhasor imaging with a widefield photon-counting detectorMethodological considerations for global analysis of cellular FLIM/FRET measurements.Monomer dimer dynamics and distribution of GPI-anchored uPAR are determined by cell surface protein assembliesMonitoring integrity and localization of modified single-stranded RNA oligonucleotides using ultrasensitive fluorescence methods.The phasor approach to fluorescence lifetime imaging analysis.Galectin-1 is a novel structural component and a major regulator of h-ras nanoclusters.Electrostatic interactions positively regulate K-Ras nanocluster formation and functionPhase differential enhancement of FLIM to distinguish FRET components of a biosensor for monitoring molecular activity of Membrane Type 1 Matrix Metalloproteinase in live cells.K-ras nanoclustering is subverted by overexpression of the scaffold protein galectin-3.Imaging of Metabolic Status in 3D Cultures with an Improved AMPK FRET Biosensor for FLIM.A biosensor of local kinesin activity reveals roles of PKC and EB1 in KIF17 activationVisualization of protein interactions in living cells.Application of phasor plot and autofluorescence correction for study of heterogeneous cell population.FRET microscopy: from principle to routine technology in cell biology.
P2860
Q21092165-50073AF7-5F18-4C25-972E-EFA29F2A1302Q26750966-1E346E38-BB7E-442F-B69A-9B6554DA8D9BQ28511660-0A278736-8901-4D7D-A560-EB8780D63C58Q28534670-EA510F85-28F0-4304-BD98-93E956352656Q30435548-FADCECF4-D04D-4898-805A-C77CB9FE5502Q30436336-C31D85B1-2234-428B-9D20-0BA7AA137ED9Q30493440-4158CAF3-3B00-420F-A270-A96E9C075E17Q30519447-44FD7F50-2C61-4525-A350-9D849269AEABQ30840368-110717B9-3C41-4793-ACC0-34FEF7FBE273Q30850281-A9F3EAC9-BA44-4F82-A0FC-B36A582D9F79Q33213839-7EB39DE1-9197-405A-88D6-90DF0E524683Q33566959-4AD81D99-D510-4AB3-A2AB-AD7684C0228DQ33940798-B80B1376-FEA7-437A-B263-D68E19B5E8DEQ34425409-DF8FF807-BFDB-49F0-B416-5D8C914C4BBEQ34477835-19D5ABAA-83D4-4CFB-8C6E-36F3B81C2EB6Q34853925-65C3E523-62FA-424D-9C09-35E8B856DD0BQ34868880-08504D41-ADA7-49F2-A32D-019FCC9C7C8FQ34886345-F98E2FEE-3994-46FD-96C6-9BC230830E98Q34935763-466CF9CA-26A3-49DB-BF35-8F7501449154Q34979939-00F3B960-A064-40B9-8E00-53A4EB115732Q35010695-06B9AE7A-3B3C-46FF-B285-C9EC9D9C27E7Q35170726-C1A76EFA-EE93-4872-81D3-C20AEBFC87D1Q35221462-26C18F21-EA57-41B9-834F-A7BFBF3AC447Q35256004-74D31D83-C0C7-4F86-BAA6-9BDC77DFE1B3Q35889317-44BAA054-0267-46E7-851F-E4C49B0D0DA6Q35956095-F211E90B-0F16-4519-886D-6A2E810A1C3FQ36051388-0DC59B9C-E933-48C7-A666-7F6484776F95Q36056082-86F00434-DEB6-45C6-A10B-A890C6E0FE76Q36176567-4E2B684C-A621-44AC-BCD6-C2F4AD9C6CBEQ36302402-0468C53B-BFC0-4217-AF99-1030FF2C9775Q36303232-F761B050-04B6-43A2-98E8-3B23B3D04F88Q36536538-8C4699D0-E236-410F-BABF-3E2A9B55A94AQ36748140-EE9502A3-3FF8-4CB7-8713-E35BEC301951Q36799972-4245F19D-B3D8-4D8F-8990-84C3169B6C9CQ36983120-C8822EF7-257A-4199-8F6D-332A8C34CAF7Q37245011-9E783FB1-DC19-4DF2-8509-DE9B0C0D74F5Q37297872-D0DAADDF-0ABC-4C4E-8AD5-BB2ADD7DF600Q37344383-B706A396-BAFE-4A92-BB31-B4CC356B5955Q37723820-04580291-C0E1-4B57-B326-D317170E23C7Q37813791-79FB2205-39CB-4DDE-9290-645BF9253D3D
P2860
Graphical representation and multicomponent analysis of single-frequency fluorescence lifetime imaging microscopy data.
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Graphical representation and m ...... etime imaging microscopy data.
@ast
Graphical representation and m ...... etime imaging microscopy data.
@en
type
label
Graphical representation and m ...... etime imaging microscopy data.
@ast
Graphical representation and m ...... etime imaging microscopy data.
@en
prefLabel
Graphical representation and m ...... etime imaging microscopy data.
@ast
Graphical representation and m ...... etime imaging microscopy data.
@en
P1476
Graphical representation and m ...... fetime imaging microscopy data
@en
P2093
A H A Clayton
P J Verveer
P356
10.1111/J.1365-2818.2004.01265.X
P577
2004-01-01T00:00:00Z