Otokiti E O, Sheardy R D
Department of Chemistry, Seton Hall University, South Orange, New Jersey 07079, USA.
Biophys J. 1997 Dec;73(6):3135-41. doi: 10.1016/S0006-3495(97)78339-5.
Circular dichroism (CD) and ultraviolet absorption techniques were employed in characterizing the sequence-dependent thermodynamic stabilities of B-Z junction-forming DNA duplexes. The Watson strand of the duplexes has the general sequence (5meC-G)4-NXYG-ACTG (where N = A or G and XY represents all permutations of pyrimidine bases). Duplexes were generated by mixing stoichiometric amounts of the complementary strands. Circular dichroism studies indicate that each duplex is fully right-handed at low salt (e.g., 115 mM Na+) but undergoes a salt-induced conformational transition to a structure that possesses both left- and right-handed conformations at high salt (4.5 M Na+), and hence a B-Z junction. Optical melting studies of the DNA duplexes at fixed DNA concentration with total Na+ concentration ranging from 15 mM to 5.0 M were determined. A nonlinear dependence of the melting temperature (Tm) on [Na+] was observed. Thermodynamic parameters at Na+ concentrations of 115 mM and 4.5 M with a wide range of DNA concentrations were determined from UV optical melting studies via construction of van't Hoff plots. A change of a single dinucleotide within these duplexes significantly affected the helix stabilities. The experimentally obtained free energies for the duplex to single-strand transitions were in close agreement with predicted values obtained from two different methods.
采用圆二色性(CD)和紫外吸收技术来表征形成B-Z结的DNA双链体的序列依赖性热力学稳定性。双链体的沃森链具有一般序列(5-甲基胞嘧啶-鸟嘌呤)4-NXYG-ACTG(其中N =腺嘌呤或鸟嘌呤,XY代表嘧啶碱基的所有排列)。通过混合化学计量的互补链来生成双链体。圆二色性研究表明,每个双链体在低盐(例如115 mM Na+)下完全为右手螺旋,但在高盐(4.5 M Na+)下会发生盐诱导的构象转变,形成一种同时具有左手和右手构象的结构,即形成一个B-Z结。测定了在固定DNA浓度下,总Na+浓度范围为15 mM至5.0 M时DNA双链体的光学熔解情况。观察到熔解温度(Tm)对[Na+]的非线性依赖性。通过构建范特霍夫图,从紫外光学熔解研究中确定了Na+浓度为115 mM和4.5 M、DNA浓度范围广泛时的热力学参数。这些双链体内单个二核苷酸的变化显著影响螺旋稳定性。实验获得的双链体到单链转变的自由能与通过两种不同方法获得的预测值密切一致。