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High throughput instrument to screen fluorescent proteins under two-photon excitation.

Rosana S MolinaJonathan KingJacob FranklinNathan ClackChristopher McRavenVasily GoncharovDaniel FlickingerKarel SvobodaMikhail DrobizhevThomas E Hughes
Published in: Biomedical optics express (2020)
Two-photon microscopy together with fluorescent proteins and fluorescent protein-based biosensors are commonly used tools in neuroscience. To enhance their experimental scope, it is important to optimize fluorescent proteins for two-photon excitation. Directed evolution of fluorescent proteins under one-photon excitation is common, but many one-photon properties do not correlate with two-photon properties. A simple system for expressing fluorescent protein mutants is E. coli colonies on an agar plate. The small focal volume of two-photon excitation makes creating a high throughput screen in this system a challenge for a conventional point-scanning approach. We present an instrument and accompanying software that solves this challenge by selectively scanning each colony based on a colony map captured under one-photon excitation. This instrument, called the GIZMO, can measure the two-photon excited fluorescence of 10,000 E. coli colonies in 7 hours. We show that the GIZMO can be used to evolve a fluorescent protein under two-photon excitation.
Keyphrases
  • living cells
  • fluorescent probe
  • single molecule
  • high throughput
  • quantum dots
  • energy transfer
  • label free
  • escherichia coli
  • mass spectrometry
  • amino acid
  • optical coherence tomography