Two-photon fluctuation correlation spectroscopy: Method and applications to protein aggregation and intracellular diffusion
Berland, Keith Michael
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https://hdl.handle.net/2142/19158
Description
Title
Two-photon fluctuation correlation spectroscopy: Method and applications to protein aggregation and intracellular diffusion
Author(s)
Berland, Keith Michael
Issue Date
1995
Doctoral Committee Chair(s)
Debrunner, Peter G.
Department of Study
Physics
Discipline
Physics
Degree Granting Institution
University of Illinois at Urbana-Champaign
Degree Name
Ph.D.
Degree Level
Dissertation
Keyword(s)
Physics, Optics
Biophysics, General
Language
eng
Abstract
Fluctuation correlation spectroscopy (FCS) is an experimental technique for the study of hydrodynamics and molecular interactions of microscopic systems. The method monitors the statistical behavior of spontaneous equilibrium fluctuations in number occupation of a fluorescent species in a subvolume of a sample. Microscopic models have been developed which relate observed statistical fluctuations in fluorescence observables to physical quantities of interest. This thesis presents the first application of two-photon molecular excitation to FCS. Two-photon excitation offers several advantages over one-photon excitation for FCS experiments. These advantages are discussed, and model systems are studied to calibrate and characterize the capabilities of the technique. The theoretical framework necessary to recover physical parameters from observed fluctuation spectra is also presented.
There are two biophysical applications proposed and discussed in this thesis. The first is the study of particle mobilities and intracellular diffusion. Measurements of particle diffusion in the cytoplasm of live cells are presented. The second application is the detection of protein aggregation in solution using two-photon scanning FCS. Measurements are shown demonstrating the potential to study aggregation equilibria at low protein concentrations, and the dissociation reactions of several oligomeric proteins are studied. The possibility to measure dissociation kinetics is also demonstrated.
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