Highly regioselective and stereoselective photodimerization of azine-containing stilbenes in neat condition: An efficient synthesis of novel cyclobutanes with heterocyclic substituents

Photocontrolled Binding of Styrylnaphthyridine Ligands to Abasic Site-Containing DNA by Reversible [2+2] Cycloaddition and Cycloreversion

Five novel styrylnaphthyridine derivatives were synthesized and shown to operate as photoswitchable, selective ligands for abasic site-containing DNA (AP-DNA), which is an important therapeutic and diagnostic target. These compounds associate with AP-DNA with binding constants of 0.5-8.4×104 M-1 as shown by photometric and fluorimetric titrations. Specifically, these ligands bind preferentially to AP-DNA relative to regularly paired duplex DNA. As a special feature, the association of these ligands with DNA can be controlled by means of a reversible [2+2] photocycloaddition. Upon irradiation at 420 nm the photodimer is formed, which does not bind to AP-DNA. In turn, the naphthyridine is regained with excitation at 315 nm. Most notably, this photoinduced deactivation and release of the DNA ligand can be performed in situ in the presence of AP-DNA, thus providing a tool for on-demand delivery of a DNA binder. Overall, these results provide a promising starting point for the development of functional AP-DNA ligands whose bioactivity can be modulated by light with local and temporal control.

Highly photosensitive furan acrylate derivatives and their solid-state photopolymerization

Highly photosensitive multifunctional furan acrylate monomers synthesized from biomass furfural can be photopolymerized into polyesters without photoinitiators and solvents.