Karlsson H Jonas, Lincoln Per, Westman Gunnar
Department of Chemistry and Bioscience, Chalmers University of Technology, Kemivägen 10, S-41296 Göteborg, Sweden.
Bioorg Med Chem. 2003 Mar 20;11(6):1035-40. doi: 10.1016/s0968-0896(02)00463-7.
A new asymmetric cyanine dye has been synthesised and its interaction with different DNA has been investigated. In this dye, BEBO, the structure of the known intercalating cyanine dye BO has been extended with a benzothiazole substituent. The resulting crescent-shape of the molecule is similar to that of the well-known minor groove binder Hoechst 33258. Indeed, comparative studies of BO illustrate a considerable change in binding mode induced by this structural modification. Linear and circular dichroism studies indicate that BEBO binds in the minor groove to poly (dA-dT), but that the binding to calf thymus DNA is heterogeneous, although still with a significant contribution of minor groove binding. Similar to other DNA binding asymmetric cyanine dyes, BEBO has a large increase in fluorescence intensity upon binding and a relatively large quantum yield when bound. The minor groove binding of BEBO to poly (dA-dT) affords roughly a 180-fold increase in intensity, which is larger than to that of the commonly used minor groove binding probes DAPI and Hoechst 33258.
一种新的不对称花菁染料已被合成,并研究了其与不同DNA的相互作用。在这种名为BEBO的染料中,已知的插入型花菁染料BO的结构通过一个苯并噻唑取代基得到了扩展。所得分子的新月形与著名的小沟结合剂Hoechst 33258相似。事实上,对BO的比较研究表明,这种结构修饰引起了结合模式的显著变化。线性和圆二色性研究表明,BEBO在小沟中与[聚(dA-dT)](2)结合,但与小牛胸腺DNA的结合是异质的,尽管小沟结合仍有显著贡献。与其他DNA结合不对称花菁染料类似,BEBO结合后荧光强度大幅增加,结合时量子产率相对较高。BEBO与[聚(dA-dT)](2)的小沟结合使强度增加了约180倍,这比常用的小沟结合探针DAPI和Hoechst 33258的增加幅度更大。