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Imaging of fluorescence anisotropy during photoswitching provides a simple readout for protein self-association

Namrata Ojha, Kristin Rainey, George H. Patterson

2020Nature Communications40 citationsDOIOpen Access PDF

Abstract

Monitoring of protein oligomerization has benefited greatly from Förster Resonance Energy Transfer (FRET) measurements. Although donors and acceptors are typically fluorescent molecules with different spectra, homo-FRET can occur between fluorescent molecules of the same type if the emission spectrum overlaps with the absorption spectrum. Here, we describe homo-FRET measurements by monitoring anisotropy changes in photoswitchable fluorescent proteins while photoswitching to the off state. These offer the capability to estimate anisotropy in the same specimen during homo-FRET as well as non-FRET conditions. We demonstrate photoswitching anisotropy FRET (psAFRET) with a number of test chimeras and example oligomeric complexes inside living cells. We also present an equation derived from FRET and anisotropy equations which converts anisotropy changes into a factor we call delta r FRET (drFRET). This is analogous to an energy transfer efficiency and allows experiments performed on a given homo-FRET pair to be more easily compared across different optical configurations.

Topics & Concepts

Förster resonance energy transferAnisotropyFluorescence anisotropyFluorescenceSingle-molecule FRETChemical physicsBiophysicsFluorescent proteinChemistryMolecular physicsGreen fluorescent proteinPhysicsOpticsBiologyGeneBiochemistryAdvanced Fluorescence Microscopy TechniquesRetinal Development and DisordersPhotosynthetic Processes and Mechanisms
Imaging of fluorescence anisotropy during photoswitching provides a simple readout for protein self-association | Litcius