Frontiers in Neuroscience (Jul 2016)

AAV vectors for FRET-based analysis of protein-protein interactions in photoreceptor outer segments

  • Elvir Becirovic,
  • Elvir Becirovic,
  • Sybille Boehm,
  • Sybille Boehm,
  • Ong Nam Phuong Nguyen,
  • Ong Nam Phuong Nguyen,
  • Lisa Maria Riedmayr,
  • Lisa Maria Riedmayr,
  • Verena Hammelmann,
  • Verena Hammelmann,
  • Christian Schön,
  • Christian Schön,
  • Elisabeth Susanne Butz,
  • Elisabeth Susanne Butz,
  • Christian Wahl-Schott,
  • Christian Wahl-Schott,
  • Martin Biel,
  • Martin Biel,
  • Stylianos Michalakis,
  • Stylianos Michalakis

DOI
https://doi.org/10.3389/fnins.2016.00356
Journal volume & issue
Vol. 10

Abstract

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Fluorescence resonance energy transfer (FRET) is a powerful method for the detection and quantification of stationary and dynamic protein-protein interactions. Technical limitations have hampered systematic in vivo FRET experiments to study protein-protein interactions in their native environment. Here, we describe a rapid and robust protocol that combines adeno-associated virus (AAV) vector-mediated in vivo delivery of genetically encoded FRET partners with ex vivo FRET measurements. The method was established on acutely isolated outer segments of murine rod and cone photoreceptors and relies on the high co-transduction efficiency of retinal photoreceptors by co-delivered AAV vectors. The procedure can be used for the systematic analysis of protein-protein interactions of wild type or mutant outer segment proteins in their native environment. Conclusively, our protocol can help to characterize the physiological and pathophysiological relevance of photoreceptor specific proteins and, in principle, should also be transferable to other cell types.

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