Journal
BIOSENSORS & BIOELECTRONICS
Volume 20, Issue 9, Pages 1728-1736Publisher
ELSEVIER ADVANCED TECHNOLOGY
DOI: 10.1016/j.bios.2004.06.045
Keywords
molecular sensor; fluorescence; single-cell imaging; cytoplasmic viscosity
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In aqueous solution, compounds containing the styrylpyridinium group showed dual fluorescence, in which excitation at either 469 or 360 nm each produced an emission band around 600 nm. The ratio of fluorescence intensities of the two bands (R =I-469/I-360) was sensitive to local viscosity. The N-carboxymethyl butyl ester of DMASP was found to be able to irreversibly load into a living cell; presumably by hydrolysis involving cellular lipases it was transformed to a membrane-impermeable fluorescent carboxylate. A map of the ratio, R, from a single cell was generated using fluorescence imaging microscopy with a spectrofluorimeter in dual-excitation single-emission mode. After calibrating the ratio for the probe in water/glycerol solutions, the intracellular viscosities were obtained for a single cell of smooth muscle of a rat embryonic thoracic aorta. The intracellular viscosity is differentiated inside the cell and the obtained values 18-7 cP obey all the values reported by other laboratories. Fluorescence emission of the probe (500-650 nm) is in a very favourable region for its use with visible fluorescence microscopy, without interferences from cell or tissue auto-fluorescence. The results present ability to detect and follow small changes in the ratio of fluorescence intensities, and apparently of the micro-viscosity. (C) 2004 Elsevier B.V. All rights reserved.
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