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作 者:袁泽利[1] 杨名惠[2] 易颜丹[1] 肖苹英[1] 吴庆[1] 胡庆红[1] 张铭钦[1] 钟永科[1]
机构地区:[1]遵义医学院药学院,贵州遵义563003 [2]遵义医学院第一附属医院检验科,贵州遵义563003
出 处:《分子科学学报》2012年第5期383-388,共6页Journal of Molecular Science
基 金:国家自然科学基金资助项目(21167018);贵州省科学技术基金资助项目(黔科合J字[2011]2032;[2010]2223);遵义医学院大学生创新实验计划资助项目(20101711)
摘 要:在生理酸度(pH=7.4)下,采用紫外及荧光等分子光谱法研究了自制的双(β-二酮)Ti(Ⅳ)新型抗肿瘤前药与DNA之间的相互作用,考察了前药和溴化乙锭与鱼精DNA结合的竞争性.研究结果表明:DNA通过静态猝灭作用机制猝灭前药的荧光,并测得其在298K和308K时的猝灭常数(Kq)分别为8.590 3×1011和7.192 2×1011 L·mol-1·s-1,结合常数(Kd)分别为5.583 9×104和4.798 1×104 L·mol-1,结合位点数(n)为1.16和0.97;DNA的存在使前药的紫外吸收光谱发生减色效应且吸收波长产生红移;前药分子可插入DNA中置换出于DNA结合的溴化乙锭.这些结果说明前药分子以嵌插方式与DNA进行结合.The interaction between novel anti-tumor prodrug bis-(β-diketonate)Ti(Ⅳ) complex(L-Ti) and milt DNA in Tris-HC1 buffer(pH=7.4) was investigated by the application of fluo-rescence spectroscopy and ultraviolet absorption spectroscopy,the competitive binding to DNA between prodrug(L-Ti) and ethidium bromide(EB) was also studied.The results demonstrated that prodrug(L-Ti) could bind to DNA and the formed complex quenched the intrinsic fluorescence of prodrug(L-Ti) through static quenching mechanism.The quenching rate constants of biomoleeule(Kq) of the reaction of DNA with prodrug(L-Ti) were calculated to be 8.590 3×1011 and 7.192 2×1011 L·mol-1·s-1 by Stern-Volumer equation,the corresponding binding constants(Kd) were computed to be 5.583 9×104 and 4.798 1×104 L·mol-1 and the number of binding sites(n) was counted to be 1.16 and 0.97 between prodrug(L-Ti) and DNA at 298 K and 308 K,respectively.prodrug(L-Ti) could be intercalated into DNA and displaced the EB from the EB-DNA complex.It was showed that prodrug(L-Ti) could combine with DNA in the mode of intercalation.
关 键 词:双(β-二酮)Ti(Ⅳ)配合物 鱼精DNA 分子光谱法 相互作用
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