Title
Surfactant–cobalt(III) complexes: The impact of hydrophobicity on interaction with HSA and DNA – insights from experimental and theoretical approach
Author
Selvakumar Veeralakshmi, Gopal Sabapathi, Selvan Nehru, Ponnambalam Venuvanalingam, Sankaralingam Arunachalam
Year
2017
Journal
Colloids and Surfaces B: Biointerfaces
Abstract
To develop surfactant-based metallodrugs, it is very important to know about their hydrophobicity, micelle forming capacity, their interaction with biomacromolecules such as proteins and nucleic acids, and biological activities. Here, diethylenetriamine (dien) and tetradecylamine ligand (TA) based surfactant–cobalt(III) complexes with single chain domain, [Co(dien)(TA)Cl2]ClO4 (1) and double chain domain [Co(dien)(TA)2Cl](ClO4)2(2) were chosen to study the effect of hydrophobicity on the interaction with human serum albumin and calf thymus DNA. The obtained results showed that (i) single chain surfactant–cobalt(III) complex (1) interact with HSA and DNA via electrostatic interaction and groove binding, respectively; (ii) double chain surfactant–cobalt(III) complex (2) interact with HSA and DNA via hydrophobic interaction and partial intercalation, respectively, due to the play of hydrophobicity by single and double chain domains. Further it is noted that, double chain surfactant–cobalt(III) complex interact strongly with HSA and DNA, compared single chain surfactant–cobalt(III) complex due to their more hydrophobicity nature. DFT and molecular docking studies offer insights into the mechanism and mode of binding towards the molecular target CT-DNA and HSA. Hence, the present findings will create new avenue towards the use of hydrophobic metallodrugs for various therapeutic applications.
Instrument
FP-6500
Keywords
Fluorescence, Protein structure, Ligand binding, Thermal stability, Thermodynamics, Synchronous, Biochemistry, Materials