Exploration of the two-photon excitation spectrum of fluorescent dyes at wavelengths below the range of the Ti:Sapphire laser

Trägårdh, J. and Robb, G. and Amor, R. and Amos, W. B. and Dempster, J. and McConnell, G. (2015) Exploration of the two-photon excitation spectrum of fluorescent dyes at wavelengths below the range of the Ti:Sapphire laser. Journal of Microscopy. ISSN 0022-2720

[img]
Preview
Text (Tragardh-etal-JOM-2015-Expoloration-of-the-two-photon-excitation-spectrum)
Tragardh_etal_JM2015_exploration_of_the_two_photon_excitation_spectrum.pdf
Final Published Version
License: Creative Commons Attribution 4.0 logo

Download (623kB)| Preview

    Abstract

    We have studied the wavelength-dependence of the two-photon excitation efficiency for a number of common UV excitable fluorescent dyes; the nuclear stains DAPI, Hoechst and SYTOX Green, chitin- and cellulose- staining dye Calcofluor White and Alexa Fluor 350, in the visible and near-infrared wavelength range (540-800 nm). For several of the dyes we observe a substantial increase in the fluorescence emission intensity for shorter excitation wavelengths than the 680 nm which is the shortest wavelength usually available for two-photon microscopy. We also find that although the rate of photo-bleaching increases at shorter wavelengths, it is still possible to acquire many images with higher fluorescence intensity. This is particularly useful for applications where the aim is to image the structure, rather than monitoring changes in emission intensity over extended periods of time. We measure the excitation spectrum when the dyes are used to stain biological specimens, to get a more accurate representation of the spectrum of the dye in a cell environment as compared to solution based measurements.