Preferential solvation of the antioxidant agent daidzein in some aqueous co-solvent mixtures according to IKBI and QLQC methods

D. M. Jiménez, Zaira J. Cárdenas, D. R. Delgado, M. Peña, F. Martínez
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引用次数: 12

Abstract

The preferential solvation parameters by ethanol (EtOH) or propylene glycol (PG) of daidzein were derived from their solution thermodynamic properties by means of the inverse Kirkwood-Buff integrals and the quasi-lattice-quasi-chemical (QLQC) methods. According to IKBI method, the preferential solvation parameter by the co-solvent, I´x 1,3 , is negative in water-rich mixtures but positive in co-solvent-rich mixtures in both kinds of systems. This could demonstrate the relevant role of hydrophobic hydration around the aromatic rings in the drug solvation in water-rich mixtures. Furthermore, the more solvation by co-solvent in co-solvent-rich mixtures could be due mainly to polarity effects and acidic behavior of the hydroxyl groups of the compound in front to the more basic solvents present in the mixtures, i.e. EtOH or PG. Otherwise, according to QLQC method, this drug is preferentially solvated by the co-solvents in all the mixtures in both kind of systems.
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根据IKBI法和QLQC法研究了抗氧化剂大豆苷元在一些水溶液共溶剂混合物中的优先溶剂化
采用逆Kirkwood-Buff积分和准晶格-准化学(QLQC)方法,从大豆苷元的溶液热力学性质出发,确定了乙醇(EtOH)或丙二醇(PG)对大豆苷元的优先溶剂化参数。根据IKBI方法,在两种体系中,助溶剂的优先溶剂化参数I´x 1,3在富水混合物中为负,而在富助溶剂混合物中为正。这可以证明芳香环周围疏水水合作用在富水混合物中药物溶剂化中的相关作用。此外,在富含共溶剂的混合物中,助溶剂的溶剂化程度较高可能主要是由于极性效应和前面化合物的羟基对混合物中碱性较强的溶剂(即EtOH或PG)的酸性行为,否则,根据QLQC方法,该药物在两种体系中的所有混合物中都优先被助溶剂溶剂化。
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