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  • Title: Exploring the interactions of a Tb(III)-quercetin complex with serum albumins (HSA and BSA): spectroscopic and molecular docking studies.
    Author: Shaghaghi M, Rashtbari S, Vejdani S, Dehghan G, Jouyban A, Yekta R.
    Journal: Luminescence; 2020 Jun; 35(4):512-524. PubMed ID: 31883206.
    Abstract:
    Serum albumins (human serum albumin (HSA) and bovine serum albumin (BSA), two main circulatory proteins), are globular and monomeric macromolecules in plasma that transport many drugs and compounds. In the present study, we investigated the interactions of the Tb(III)-quercetin (Tb-QUE) complex with HSA and BSA using common spectroscopic techniques and a molecular docking study. Fluorescence data revealed that the inherent fluorescence emission of HSA and BSA was markedly quenched by the Tb-QUE complex through a static quenching mechanism, confirming stable complex formation (a ground-state association) between albumins and Tb-QUE. Binding and thermodynamic parameters were obtained from the fluorescence spectra and the related equations at different temperatures under biological conditions. The binding constants (Kb ) were calculated to be 0.8547 × 103 M-1 for HSA and 0.1363 × 103 M-1 for BSA at 298 K. Also, the number of binding sites (n) of the HSA/BSA-Tb-QUE systems was obtained to be approximately 1. Thermodynamic data calculations along with molecular docking results indicated that electrostatic interactions have a main role in the binding process of the Tb-QUE complex with HSA/BSA. Furthermore, molecular docking outputs revealed that the Tb-QUE complex has high affinity to bind to subdomain IIA of HSA and BSA. Binding distances (r) between HSA-Tb-QUE and BSA-Tb-QUE systems were also calculated using the Forster (fluorescence resonance energy transfer) method. It is expected that this study will provide a pathway for designing new compounds with multiple beneficial effects on human health from the phenolic compounds family such as the Tb-QUE complex.
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