Fluorescence lifetime imaging of coral fluorescent proteins

## Abstract Numerous processes in cells can be traced by using fluorescence resonance energy transfer (FRET) between two fluorescent proteins. The novel FRET pair including the red fluorescent protein TagRFP and kindling fluorescent protein KFP for sensing caspase‐3 activity is developed. The lifet

## Abstract We report a rapid hyperspectral fluorescence lifetime imaging (FLIM) instrument that exploits high‐speed FLIM technology in a line‐scanning microscope. We demonstrate the acquisition of whole‐field optically sectioned hyperspectral fluorescence lifetime image stacks (with 32 spectral bi

## Abstract We present a fluorescence lifetime imaging technique with simultaneous spectral and temporal resolution. The technique is fully compatible with the commonly used multiphoton microscopes and nondescanned (direct) detection. An image of the back‐aperture of the microscope lens is projecte

## Abstract In vivo and in vitro multiphoton imaging was used to perform high resolution optical sectioning of human hair by nonlinear excitation of endogenous as well as exogenous fluorophores. Multiphoton fluorescence lifetime imaging (FLIM) based on time‐resolved single photon counting and near‐

## Background: Dna fluorescence dyes have been used to study dna dynamics, chromatin structure, and cell cycle analysis. however, most microscopic fluorescence studies of dna use only steady-state measurements and do not take advantage of the additional information content of the time-resolved fluo

## Abstract We describe a fluorescence lifetime imaging endomicroscope employing a fibre bundle probe and time correlated single photon counting. Preliminary images of stained pollen grains, eGFP‐labelled cells exhibiting Förster resonant energy transfer and tissue autofluorescence are presented. (