Platinum anticancer drug binding to DNA detected by thickness-shear-mode acoustic wave sensor.

Nucleic acid has been attached to the electrodes of thickness-shear-mode acoustic wave devices to produce a biosensor for platinum-based drugs. The decreases in series resonant frequency for interactions of DNA with both cis- and transplatin are indicative of two distinct kinetic processes. The results of a kinetic analysis are interpreted in terms of nucleic acid binding of the hydrolysis products of the two drugs. Concentration-dependent decreases of series resonant frequency show that the limit of detection for the drugs is approximately 10(-7) M. Motional resistance changes for nucleic acid-drug interactions also convey information regarding the chemistry of the macromolecules at the interface.