Sameer Shakeel Ansari scite author profile

Intermolecular interaction study of human serum albumin (HSA) with two anthraquinones i.e. danthron and quinizarin has been performed through fluorescence, UV-vis and CD spectroscopy along with docking analysis. The titration of drugs into HSA solution brought about the quenching of fluorescence emission by way of complex formation. The binding constants were found to be 1.51 × 10 L mol and 1.70 × 10 L mol at λ = 280 nm while at λ = 295 nm, the values of binding constants were 1.81 × 10 L mol and 1.90 × 10 L mol which hinted toward binding of both the drugs in the vicinity of subdomain IIA. Different temperature study revealed the presence of static quenching mechanism. Moreover, more effective quenching of the fluorescence emission was observed at λ = 295 nm which also suggested that both the drug molecule bind nearer to Trp-214. Thermodynamic parameters showed that hydrophobic interaction was the major force behind the binding of drugs. The UV-vis spectroscopy testified the formation of complex in both the systems and primary quenching mechanism as static one. The changes in secondary structure and α-helicity in both the systems were observed by circular dichroism spectroscopy. Furthermore, molecular docking analysis predicted the probable binding site of drugs in subdomain IIA of HSA molecule. The types of amino acid residues surrounding the drug molecule advocated that van der Waals forces, hydrophobic forces and electrostatic forces played a vital role in the stabilization of drug-protein complex formed.

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Comprehensive biofuel policy analysis framework: A novel approach evaluating the policy influences

Usmani

Mohammad

Ansari

2023

Renewable and Sustainable Energy Reviews

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Revealing the Molecular Interaction of Surface Active Ionic Liquids [C8mim][Cl] & [C10mim][Cl] with Anionic Dye Eosin Yellow: A Comparative Study with Analogous Cationic Surfactants

Warsi

Ansari

Khan

et al. 2023

Preprint

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