Minor groove binding of imidocarb dipropionate to calf thymus DNA: insights from multispectral, thermodynamic, and molecular docking approaches.
Yuxin Yu, Wanxin Luo, YiWen Zhong, Dongfang Li, Sen Wang, Yidan Bai, Junlong Zhao, Lan He
Abstract
Open AccessThis study aimed to investigate the interaction between imidocarb dipropionate (IMDP) and double-stranded DNA, as understanding its mechanism of action is crucial for optimizing its use as a veterinary antiprotozoal agent. Using calf thymus DNA as a model, we systematically explored the binding of IMDP to DNA via UV-vis absorption spectroscopy, Competitive displacement assays, thermal denaturation analysis, circular dichroism spectroscopy, ion interference experiments, viscosity measurement, and molecular docking. Results indicated that IMDP binds to DNA with a decrease in hypochromicity rates of 23.95% and 22.17%. Notably, the T m value rose from 69 °C to 71 °C upon binding, and the circular dichroism spectrum peaks remained nearly unchanged, suggesting a groove binding mode with minimal impact on DNA conformation and viscosity. Our findings confirm that IMDP binds to double-stranded DNA by interacting within the DNA groove, supporting its potential as a DNA-targeting antiparasitic drug.