Open AccessOrientation and Rotational Motions of Single Molecules by Polarized Total Internal Reflection Fluorescence Microscopy (polTIRFM)
Author(s) -
John F. Beausang,
Yujie Sun,
Margot E. Quinlan,
Joseph N. Forkey,
Yale E. Goldman
Publication year - 2012
Publication title -
cold spring harbor protocols
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.674
H-Index - 51
eISSN - 1940-3402
pISSN - 1559-6095
DOI - 10.1101/pdb.top069344
Subject(s) - total internal reflection fluorescence microscope , orientation (vector space) , fluorescence , microscopy , molecule , rotational diffusion , rotation around a fixed axis , single molecule experiment , rhodamine , fluorescence anisotropy , chemistry , fluorescence microscope , biophysics , physics , optics , geometry , biology , mathematics , organic chemistry , classical mechanics
In this article, we describe methods to detect the spatial orientation and rotational dynamics of single molecules using polarized total internal reflection fluorescence microscopy (polTIRFM). polTIRFM determines the three-dimensional angular orientation and the extent of wobble of a fluorescent probe bound to the macromolecule of interest. We discuss single-molecule versus ensemble measurements, as well as single-molecule techniques for orientation and rotation, and fluorescent probes for orientation studies. Using calmodulin (CaM) as an example of a target protein, we describe a method for labeling CaM with bifunctional rhodamine (BR). We also describe the physical principles and experimental setup of polTIRFM. We conclude with a brief introduction to assays using polTIRFM to assess the interaction of actin and myosin.
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