A deoxyribozyme, Sero1C, uses light and serotonin to repair diverse pyrimidine dimers in DNA.

An in vitro selection search for DNAs capable of catalyzing photochemistry yielded two distinctive deoxyribozymes (DNAzymes) with photolyase activity: UV1C, which repaired thymine dimers within DNA using a UV light of >300 nm wavelength and no extraneous cofactor, and Sero1C, which required the tryptophan metabolite serotonin as cofactor in addition to the UV light. Catalysis by Sero1C conformed to Michaelis-Menten kinetics, and analysis of the action spectrum of Sero1C confirmed that serotonin did indeed serve as a catalytic cofactor rather than as a structural cofactor. Sero1C and UV1C showed strikingly distinct wavelength optima for their respective photoreactivation catalyses.