Total Internal Reflection Two-Dimensional Fluorescence
Lifetime Correlation Spectroscopy
- Publication date
- Publisher
Abstract
Fluorescence
lifetime correlation analysis is becoming a powerful
tool to understand the conformational heterogeneity of biomolecules
and their dynamics with an unprecedented detection sensitivity and
time resolution. However, its application to the study of biomembranes
is very limited. Here, we report on two-dimensional fluorescence lifetime
correlation spectroscopy (2D FLCS) in combination with total internal
reflection (TIR) microscopy (TIR 2D-FLCS). High depth resolution in
TIR microscopy and species-specific correlation analysis in 2D FLCS
give us the opportunity to selectively analyze molecules in or on
a supported lipid bilayer, a model biomembrane formed on the glass
surface. Feasibility experiments performed in this study clearly demonstrated
that TIR 2D-FLCS has a potential to selectively analyze the diffusion
and the conformational dynamics of proteins peripherally bound on
the membrane in the presence of substantial amounts of unbound molecules
in the bulk phase