Breaking the blue barrier of nucleobase fluorescence emission with dicyanovinyl-based uracil molecular rotor probes

Mria Chowdhury; Akym John; Robert H E Hudson

doi:10.1039/d4ra07000c

Breaking the blue barrier of nucleobase fluorescence emission with dicyanovinyl-based uracil molecular rotor probes

RSC Adv. 2024 Nov 25;14(50):37605-37609. doi: 10.1039/d4ra07000c. eCollection 2024 Nov 19.

Authors

Mria Chowdhury¹, Akym John¹, Robert H E Hudson¹

Affiliation

¹ Department of Chemistry, Western University London Ontario N6A 5B7 Canada [email protected].

Abstract

Dicyanovinyl-modified uracil produces fluorescent molecular rotors (FMR) that display massively red-shifted emission and huge Stokes shifts. They are exemplified by DCVSU - an intrinsically fluorescent nucleobase analog (IFNA) with the longest emission wavelength of 592 nm (DMSO) reported thus far which also shows strong polarity sensitivity and large Stokes shift (λ = 181 nm). The IFNAs exhibited typical molecular rotor response to solvent viscosity with brightnesses (ε × φ) of up to 8700 cm^-1 M^-1. ¹H NMR titration confirmed the expected association of the IFNA with the complementary nucleobase adenine-9-ethyl acetate.