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Bioinspired large Stokes shift small molecular dyes for biomedical fluorescence imaging

Hao Chen, Lingjun Liu, Kun Qian, Hailong Liu, Zhiming Wang, Feng Gao, Chunrong Qu, Wenhao Dai, Daizong Lin, Kaixian Chen, Hong Liu, Zhen Cheng

2022Science Advances124 citationsDOIOpen Access PDF

Abstract

Long Stokes shift dyes that minimize cross-talk between the excitation source and fluorescent emission to improve the signal-to-background ratio are highly desired for fluorescence imaging. However, simple small molecular dyes with large Stokes shift (more than 120 nanometers) and near-infrared (NIR) emissions have been rarely reported so far. Here, inspired by the chromophore chemical structure of fluorescent proteins, we designed and synthesized a series of styrene oxazolone dyes (SODs) with simple synthetic methods, which show NIR emissions (>650 nanometers) with long Stokes shift (ranged from 136 to 198 nanometers) and small molecular weight (<450 daltons). The most promising SOD9 shows rapid renal excretion and blood-brain barrier passing properties. After functioning with the mitochondrial-targeted triphenylphosphonium (TPP) group, the resulting SOD9-TPP can be engineered for head-neck tumor imaging, fluorescence image-guided surgery, brain neuroimaging, and on-site pathologic analysis. In summary, our findings add an essential small molecular dye category to the classical dyes.

Topics & Concepts

Stokes shiftFluorescenceChromophoreMolecular imagingFluorescence-lifetime imaging microscopyNeuroimagingBiophysicsMaterials scienceChemistryPhotochemistryOpticsMedicinePhysicsBiologyIn vivoBiotechnologyPsychiatryNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsAdvanced Fluorescence Microscopy Techniques