Steady—state fluorescence quenching as a tool to study protein dynamics

Recent advances in the use of fluorescence spectroscopy to study protein interactions have primarily involved combinations of classic fluorescence techniques, novel probe and coupling chemistries, and advances in laser excitation and detection capabilities. For example, new coupling strategies for f

Time-resolved study of intramolecular fluorescence quenching in a 9,lO~imethyhnrthracene derivative u+hich has a CBr3 group attached to it by 3 chain composed of 11 atoms provides the rate of in;ramolecular collision between these two groups since it is shown that the bimolecdar quenching of the flu

The purpose of this work was to obtain information about protein tertiary structure in solid state by using steady state tryptophan (Trp) fluorescence emission spectroscopy on protein powders. Beta-lactoglobulin (betaLg) and interferon alpha-2a (IFN) powder samples were studied by fluorescence spect

## Background: Several apoptosis-detecting methods are currently available. many of them are work intensive and require the additional use of antibodies, dyes, specific substrates, or enzymatic reactions. a simple, fast, and reliable method was developed to test for apoptosis or necrosis using mous