Green Fluorescent Protein (GFP) mutants are extensively used in optical microscopy studies of in vivo biological processes in cells. Nonetheless, blinking and bleaching of the GFP chromophore at the single molecule level greatly limits its usefulness. We have worked out what we think are the best experimental conditions for the use of the GFP mutant, GFP-mut2, as a single molecule marker in two-photon excitation measurements. We have measured molecular brightness, excited state lifetime, blinking and photo-bleaching times versus the two-photon excitation intensity on proteins embedded in silica gel matrices versus the excitation wavelength in the range 700-1,000 nm. Our results indicate that GFPmut2 can be employed as a long-lived reporter of biological processes. (C) 2005 Wiley-Liss, Inc.
Cannone, F., Caccia, M., Bologna, S., Diaspro, A., Chirico, G. (2004). Single molecule spectroscopic characterization of GFP-MUT2 mutant for two-photon microscopy applications. MICROSCOPY RESEARCH AND TECHNIQUE, 65(4-5), 186-193 [10.1002/jemt.20125].
Single molecule spectroscopic characterization of GFP-MUT2 mutant for two-photon microscopy applications
CHIRICO, GIUSEPPE
2004
Abstract
Green Fluorescent Protein (GFP) mutants are extensively used in optical microscopy studies of in vivo biological processes in cells. Nonetheless, blinking and bleaching of the GFP chromophore at the single molecule level greatly limits its usefulness. We have worked out what we think are the best experimental conditions for the use of the GFP mutant, GFP-mut2, as a single molecule marker in two-photon excitation measurements. We have measured molecular brightness, excited state lifetime, blinking and photo-bleaching times versus the two-photon excitation intensity on proteins embedded in silica gel matrices versus the excitation wavelength in the range 700-1,000 nm. Our results indicate that GFPmut2 can be employed as a long-lived reporter of biological processes. (C) 2005 Wiley-Liss, Inc.
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