Intramolecular fluorescence correlation spectroscopy in a feedback tracking microscope
Abstract
We derive the statistics of the signals generated by shape fluctuations of large molecules studied by feedback tracking microscopy. We account for the influence of intramolecular dynamics on the response of the tracking system, and derive a general expression for the fluorescence autocorrelation function that applies when those dynamics are linear. We show that tracking provides enhanced sensitivity to translational diffusion, molecular size, heterogeneity and long time-scale decays in comparison to traditional fluorescence correlation spectroscopy. We demonstrate our approach by using a three-dimensional tracking microscope to study genomic -phage DNA molecules with various fluorescence label configurations.
Cite
@article{arxiv.0908.1177,
title = {Intramolecular fluorescence correlation spectroscopy in a feedback tracking microscope},
author = {Kevin McHale and Hideo Mabuchi},
journal= {arXiv preprint arXiv:0908.1177},
year = {2015}
}
Comments
11 pages, 5 figures, supplemental info: http://minty.stanford.edu/papers/Publications/McHale10aSI.pdf