ArticleKuo CT, Thompson AM, Gallina ME, Ye F, Johnson ES, Sun W, Zhao M, Yu J, Wu IC, Fujimoto B, DuFort CC, Carlson MA, Hingorani SR, Paguirigan AL, Radich JP, Chiu DT.
Nat Commun. 2016 04 27;7:11468.
The efficient selection and isolation of individual cells of interest from a mixed population is desired in many biomedical and clinical applications. Here we show the concept of using photoswitchable semiconducting polymer dots (Pdots) as an optical 'painting' tool, which enables the selection of certain adherent cells based on their fluorescence, and their spatial and morphological features, under a microscope. We first develop a Pdot that can switch between the bright (ON) and dark (OFF) states reversibly with a 150-fold contrast ratio on irradiation with ultraviolet or red light. With a focused 633-nm laser beam that acts as a 'paintbrush' and the photoswitchable Pdots as the 'paint', we select and 'paint' individual Pdot-labelled adherent cells by turning on their fluorescence, then proceed to sort and recover the optically marked cells (with 90% recovery and near 100% purity), followed by genetic analysis.