Chimeric GFP–uracil based molecular rotor fluorophores

Abstract

Uracil has been modified at the 5-position to derive a small library of nucleobase-chromophores which were inspired by green fluorescent protein (GFP). The key steps in the syntheses were Erlenmeyer azlactone synthesis followed by amination by use of hexamethyl disilazane (HMDS) to produce the imidazolinone derivatives. The uracil analogues displayed emission in the green region of visible spectrum and exhibited microenvironmental sensitivity exemplified by polarity-based solvatochromism and viscosity-dependent emission enhancement. Solid-state quantum yields of approximately 0.2 and solvent dependent emission wavelengths beyond 500 nm were observed. Select analogues were incorporated into peptide nucleic acid (PNA) strands which upon duplex formation with DNA showed good response ranging from a turn-off of fluorescence in presence of an opposing mismatched residue to a greater than 3-fold turn-on of fluorescence upon binding to fully complementary DNA strand.