Litcius/Paper detail

Multicolor three-photon fluorescence imaging with single-wavelength excitation deep in mouse brain

Yusaku Hontani, Fei Xia, Chris Xu

2021Science Advances161 citationsDOIOpen Access PDF

Abstract

Multiphoton fluorescence microscopy is a powerful technique for deep-tissue observation of living cells. In particular, three-photon microscopy is highly beneficial for deep-tissue imaging because of the long excitation wavelength and the high nonlinear confinement in living tissues. Because of the large spectral separation of fluorophores of different color, multicolor three-photon imaging typically requires multiple excitation wavelengths. Here, we report a new three-photon excitation scheme: excitation to a higher-energy electronic excited state instead of the conventional excitation to the lowest-energy excited state, enabling multicolor three-photon fluorescence imaging with deep-tissue penetration in the living mouse brain using single-wavelength excitation. We further demonstrate that our excitation method results in ≥10-fold signal enhancement for some of the common red fluorescent molecules. The multicolor imaging capability and the possibility of enhanced three-photon excitation cross section will open new opportunities for life science applications of three-photon microscopy.

Topics & Concepts

Two-photon excitation microscopyExcitationFluorescenceMicroscopyPhotonExcited stateFluorescence-lifetime imaging microscopyWavelengthPenetration depthOpticsMaterials scienceOptoelectronicsPhysicsAtomic physicsQuantum mechanicsAdvanced Fluorescence Microscopy TechniquesRetinal Development and DisordersNonlinear Optical Materials Studies
Multicolor three-photon fluorescence imaging with single-wavelength excitation deep in mouse brain | Litcius