Abstract
Photophysical studies of 4-Dicyanomethylene-2,6-Dimethyl-4H-Pyran (DDP) dye with globular proteins, Human Serum Albumin (HSA) and Bovine Serum Albumin (BSA) were carried out in aqueous solution. An isosbestic point resulted on the addition of serum albumins, which signifies a complex or an equilibrium state of DDP dye with albumin. Addition of BSA to DDP dye results in a fluorescence enhancement accompanied with a significant hypsochromic shift, whereas with that of HSA, a fluorescence quenching with a considerable blue shift resulted. Excited state studies of DDP dye with serum albumins portray that the role of binding sites of dye with albumins vary considerably and the nature of interaction is presumably attributed to combined hydrogen-bonding and hydrophobic interactions. Molecular docking studies of DDP dye with albumins and two other derivatives 4-(Dicyanomethylene)-2-methyl-6-(4-dimethylaminostyryl)-4H-pyran (DCM) dye and 4-(Dicyanomethylene)-2-methyl-6-(4-t-buyl)-4H-pyran (DCT) dyes with BSA and HSA elucidates that the hydrogen-bonding interaction accompanied with several hydrophobic, pi–pi an pi–alkyl interactions coexist between dye and albumins. The binding energy, intermolecular energy and stability of the DDP, DCM and DCT dyes through docking techniques with albumins authenticate that the dye predominantly acts as hydrogen-bonding acceptor site and the protein molecule as the donor. DDP dye prefers to exist in four different binding sites of HSA, whereas, in the case of BSA, the most preferred site is found to be hydrophobic domain (site I). Interestingly, the most preferred site of DCT dye is III A subdomain of HSA, whereas DCM dye is oriented towards I B subdomain. DDP and DCT are smaller in size and reside in the domain preferred for smaller ligands (II A and IIIA) as resulted in several drugs-HSA interaction whereas DCM dye which is categorized as medium to larger ligand based on the extended structure resides in the most favoured site IB. Fluorescence techniques in combination with molecular docking methods elucidate binding characteristics and the domain in which the dye resides in a micro heterogeneous environment is established in this study.
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