Photoconvertible fluorescent proteins (pc-FPs) are a class of fluorescent proteins with "optical highlighter" capability, meaning that the color of fluorescence can be changed by exposure to light of a specific wavelength. Optical highlighting allows noninvasive marking of a subpopulation of fluorescent molecules, and is therefore ideal for tracking single cells or organelles. Critical parameters for efficient photoconversion are the intensity and the exposure time of the photoconversion light. If the intensity is too low, photoconversion will be slow or not occur at all. On the other hand, too much intensity or too long exposure can photobleach the protein and thereby reduce the efficiency of photoconversion. This protocol describes a general approach how to set up a confocal laser scanning microscope for pc-FP photoconversion applications. First, we describe a procedure for preparing purified protein droplet samples. This sample format is very convenient for studying the photophysical behavior of fluorescent proteins under the microscope. Second, we will use the protein droplet sample to show how to configure the microscope for photoconversion. And finally, we will show how to perform optical highlighting in live cells, including dual-probe optical highlighting with mOrange2 and Dronpa.

Original languageEnglish
Article numbere1995
JournalJournal of Visualized Experiments
Issue number40
StatePublished - Jun 2010


  • Cellular biology
  • Confocal
  • Dronpa
  • Droplet
  • Imaging
  • Issue 40
  • Octanol
  • Photoactivation
  • Photoconversion
  • mOrange


Dive into the research topics of 'Photoconversion of purified fluorescent proteins and dual-probe optical highlighting in live cells'. Together they form a unique fingerprint.

Cite this