A resonance light scattering quenching system for studying DNA sequence recognition of actinomycin D

Abstract

The DNA sequence recognition study of DNA-targeted anticancer drugs is a theoretical basis for improving the selectivity of anticancer drugs. With the high synergy effect of cocoamidopropyl hydroxy sulfobetaine (HSB), a resonance light scattering (RLS) quenching system for DNA sequence recognition studies of actinomycin D (ACTD) was developed in this contribution. By the strategy, DNA sequence selectivity as well as the recognition mechanisms of ACTD was systematically investigated. The results suggested that ACTD had the selectivity to single-stranded DNA (ssDNA) with an equilibrium constant (K(RLS)) of 12.4 mmol mg(-1). Also it had a preference for Guanine and Cytosine bases with a K(RLS) of 6.69 L mmol(-1). The selectivity mechanism between ACTD and DNA was also well discussed with the help of UV-Vis absorption spectroscopy. Compared with other methods, the RLS quenching system has the advantages of reliability and speediness, and it avoids complex modification processes and is a better bionic system for the above research. Results obtained from this work would supply a theoretical basis for improving anticancer activity and designing similar anticancer drugs.