40 likes | 152 Views
Single molecule imaging in digitonin-permeabilized cells reveals the receptor population undergoing active transport in live cells.(A) Kymographs of simultaneous live cell imaging of TagRFP.T-IFT88 (RFP-IFT88, IFT trains) and single molecule SSTR3. Ye F et al. eLife Sciences 2013;2:e00654.
E N D
Single molecule imaging in digitonin-permeabilized cells reveals the receptor population undergoing active transport in live cells.(A) Kymographs of simultaneous live cell imaging of TagRFP.T-IFT88 (RFP-IFT88, IFT trains) and single molecule SSTR3... Ye F et al. eLife Sciences 2013;2:e00654
Single molecule imaging in digitonin-permeabilized cells reveals the receptor population undergoing active transport in live cells.(A) Kymographs of simultaneous live cell imaging of TagRFP.T-IFT88 (RFP-IFT88, IFT trains) and single molecule SSTR3... Ye F et al. eLife Sciences 2013;2:e00654
Single molecule imaging in digitonin-permeabilized cells reveals the receptor population undergoing active transport in live cells.(A) Kymographs of simultaneous live cell imaging of TagRFP.T-IFT88 (RFP-IFT88, IFT trains) and single molecule SSTR3... Ye F et al. eLife Sciences 2013;2:e00654
Single molecule imaging in digitonin-permeabilized cells reveals the receptor population undergoing active transport in live cells.(A) Kymographs of simultaneous live cell imaging of TagRFP.T-IFT88 (RFP-IFT88, IFT trains) and single molecule SSTR3... Ye F et al. eLife Sciences 2013;2:e00654