@article {46267, title = {A general method to improve fluorophores for live-cell and single-molecule microscopy.}, journal = {Nature Methods}, volume = {12}, year = {2015}, month = {2015 Jan 19}, pages = {244-50}, abstract = {

Specific labeling of biomolecules with bright fluorophores is the keystone of fluorescence microscopy. Genetically encoded self-labeling tag proteins can be coupled to synthetic dyes inside living cells, resulting in brighter reporters than fluorescent proteins. Intracellular labeling using these techniques requires cell-permeable fluorescent ligands, however, limiting utility to a small number of classic fluorophores. Here we describe a simple structural modification that improves the brightness and photostability of dyes while preserving spectral properties and cell permeability. Inspired by molecular modeling, we replaced the N,N-dimethylamino substituents in tetramethylrhodamine with four-membered azetidine rings. This addition of two carbon atoms doubles the quantum efficiency and improves the photon yield of the dye in applications ranging from in vitro single-molecule measurements to super-resolution imaging. The novel substitution is generalizable, yielding a palette of chemical dyes with improved quantum efficiencies that spans the UV and visible range.

}, issn = {1548-7105}, doi = {10.1038/nmeth.3256}, author = {Grimm, Jonathan B and English, Brian P and Chen, Jiji and Slaughter, Joel P and Zhang, Zhengjian and Revyakin, Andrey and Patel, Ronak and Macklin, John J and Normanno, Davide and Singer, Robert H and Lionnet, Timoth{\'e}e and Lavis, Luke D} }