A general method to optimize and functionalize red-shifted rhodamine dyes.
Jonathan B GrimmAriana N TkachukLiangqi XieHeejun ChoiBoaz MoharNatalie FalcoKathy SchaeferRonak PatelQinsi ZhengZhe J LiuJennifer Lippincott-SchwartzTimothy A BrownLuke D LavisPublished in: Nature methods (2020)
Expanding the palette of fluorescent dyes is vital to push the frontier of biological imaging. Although rhodamine dyes remain the premier type of small-molecule fluorophore owing to their bioavailability and brightness, variants excited with far-red or near-infrared light suffer from poor performance due to their propensity to adopt a lipophilic, nonfluorescent form. We report a framework for rationalizing rhodamine behavior in biological environments and a general chemical modification for rhodamines that optimizes long-wavelength variants and enables facile functionalization with different chemical groups. This strategy yields red-shifted 'Janelia Fluor' (JF) dyes useful for biological imaging experiments in cells and in vivo.