FRET in cell biology: still shining in the age of super-resolution?
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A new trend to determine biochemical parameters by quantitative FRET assaysCell-based screening: extracting meaning from complex data.LI-cadherin cis-dimerizes in the plasma membrane Ca(2+) independently and forms highly dynamic trans-contacts.Coordinate-based colocalization analysis of single-molecule localization microscopy data.Simple super-resolution live-cell imaging based on diffusion-assisted Förster resonance energy transfer.Quantitative analysis of single-molecule superresolution imagesThe use of nanoscale fluorescence microscopic to decipher cell wall modifications during fungal penetration.Single-Molecule Spectroscopy, Imaging, and Photocontrol: Foundations for Super-Resolution Microscopy (Nobel Lecture).Size, organization, and dynamics of soluble SQSTM1 and LC3-SQSTM1 complexes in living cellsAdvanced fluorescence microscopy techniques--FRAP, FLIP, FLAP, FRET and FLIM.Probing nucleic acid interactions and pre-mRNA splicing by Förster Resonance Energy Transfer (FRET) microscopyGalectin-1 dimers can scaffold Raf-effectors to increase H-ras nanoclustering.Flavones modulate respiratory epithelial innate immunity: Anti-inflammatory effects and activation of the T2R14 receptor.Probing protein multidimensional conformational fluctuations by single-molecule multiparameter photon stamping spectroscopy.A novel homogeneous immunoassay for anthrax detection based on the AlphaLISA method: detection of B. anthracis spores and protective antigen (PA) in complex samples.Frequency of close positioning of chromosomal loci detected by FRET correlates with their participation in carcinogenic rearrangements in human cells.A novel robust quantitative Förster resonance energy transfer assay for protease SENP2 kinetics determination against its all natural substrates.A linker strategy for trans-FRET assay to determine activation intermediate of NEDDylation cascade.Specific substrate recognition and thioester intermediate determinations in ubiquitin and SUMO conjugation cascades revealed by a high-sensitive FRET assay.Intermolecular approach to metal ion indicators based on polymer phase transitions coupled to fluorescence resonance energy transfer.An Optical Neuron-Astrocyte Proximity Assay at Synaptic Distance Scales.SOLVING SINGLE BIOMOLECULES BY ADVANCED FRET-BASED SINGLE-MOLECULE FLUORESCENCE TECHNIQUES
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P2860
FRET in cell biology: still shining in the age of super-resolution?
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on 29 December 2010
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
FRET in cell biology: still shining in the age of super-resolution?
@en
FRET in cell biology: still shining in the age of super-resolution?
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type
label
FRET in cell biology: still shining in the age of super-resolution?
@en
FRET in cell biology: still shining in the age of super-resolution?
@nl
prefLabel
FRET in cell biology: still shining in the age of super-resolution?
@en
FRET in cell biology: still shining in the age of super-resolution?
@nl
P2860
P356
P1433
P1476
FRET in cell biology: still shining in the age of super-resolution?
@en
P2093
Hernán E Grecco
Peter J Verveer
P2860
P304
P356
10.1002/CPHC.201000795
P577
2010-12-29T00:00:00Z