Fluorescence resonance energy transfer from tryptophan to a chromium(III) complex accompanied by non-specific cleavage of albumin: a step forward towards the development of a novel photoprotease.

A chromium(III) complex, transdiaqua [N, N'-propylenebis(salicylideneimino)chromium(III)]perchlorate ([Cr(salprn)(H2O)(2)]ClO(4)) in the presence of sodium azide and upon photoexcitation was found to bring about non-selective cleavage of bovine serum albumin (BSA). Electron paramagnetic resonance (EPR) evidence has been obtained for the formation of a Cr(V) species upon photolysis of a solution containing the chromium(III) complex and sodium azide. This Cr(V) species non-selectively cleaves BSA. The fluorescence excitation spectrum of BSA-[Cr(salprn)(H2O)(2)]+ adduct showed a band at lambda(max)(ex) nm due to charge transfer transition of the chromium(III) complex as well as a prominent band at 290 nm attributable to tryptophan absorption. This indicated an efficient Forster type fluorescence energy transfer (FRET) from the tryptophan residues to the chromium(III) complex indicating that the Cr(III) complex binds in the vicinity of the tryptophan residue.