摘要
以光谱技术与微量热技术相结合的方法研究水溶液中金霉素与牛血清白蛋白分子间结合作用的热力学性质 .荧光猝灭法测得该反应的结合常数K =2 .0 9× 10 5L/mol,结合位点数n =1.75 ,微量法测得反应的焓变△rHm=- 17.5 0kJ/mol;依据Forster非辐射能量转移机制 ,得到授体 受体间的结合距离 (r1=1.6 7nm ,r2 =1.4 6nm)和能量转移效率 (E1=0 .4 1,E2 =0 .6 6 ) .金霉素与牛血清白蛋白分子间有较强的结合作用 ,且结合力以疏水作用为主 .
The reaction mechanism and the thermodynamic characteristics between an antibiotics drug (chlortetracycline , CTC) and bovine serum albumin (BSA) were investigated by the fluorescence spectra and flow microcalorimetry in a Tris-HC] buffer solution ( pH = 7.0, made isotonic with sodium chloride) at 25degreesC. It was manifested that CTC had a powerful ability to quench the intrinsic fluorescence of BSA mainly via a static quenching but CTC itself had no emission fluorescence for the 300 similar to 500 nm range in wavelength. A equation which conld be used to determine the binding parameters of small molecule ligand binding to bio-macromolecule had been presented based on the site binding model and florescence quenching. Furthermore, the apparent binding constant K was found to be 1.20 x 10(5) L/mol and the binding sites n to be 1.75 through the equation, and the thermodynamic parameters were determined to be the molar change of enthatpy Delta(r)H(m) = -17.50 kJ/mol, the molar change of Gibbs function Delta(r)G(m) = -30.37 kJ/mol and the molar change of entropy Delta(r)S(m) = 43.17 J/mol K by the K value and flow microcalorimetry for the reaction. It may be suggested that the interaction between chlortetracycline and BSA is strong and the main binding force is hydrophobic interaction according to the thermodynamic parameters. By using a spectra overlap integral between the absorption spectrum of chlortetracycline and the emission spectrum of BSA, the distances ( r(1) = 1.67 nm, r(2) =1.46 nm) of Trp-212 residue to the binding sites of drug were estimated and the transfer efficiency (E-1 = 0.41, E-2 = 0.66) between chlortetracycline and BSA was also obtained from the theory of forster non-radiation energy transfer theory. From these distances, the region and binding sits of drug in BSA can be determined and an allosteric domain model of CTC-BSA complex was postulated from the above results.
基金
ProjectsupportedbyNationalNaturalScienceFoundationofChina (2 0 1730 5 0 )andNaturalScienceFoundationofHunanProvince (0 1JJY30 0 9)
