Dadarlat V M, Saxena V K
Department of Physics, Purdue University, West Lafayette, Indiana 47907, USA.
Biophys J. 1998 Jul;75(1):70-91. doi: 10.1016/S0006-3495(98)77496-X.
Structural conformation of triple-helical poly(dT)-poly(dA)-poly(dT) has been a very controversial issue recently. Earlier investigations, based on fiber diffraction data and molecular modeling, indicated an A-form conformation with C'3-endo sugar pucker. On the other hand, Raman, solution infrared spectral, and NMR studies show a B-form structure with C'2-endo sugars. In accordance with these experimental results, a theoretical model with B-form, C'2-endo sugars was proposed in 1993. In the present work we investigate the dynamics and stability of the two conformations within the effective local field approach applied to the normal mode calculations for the system. The presence of counterions was explicitly taken into account. Stable equilibrium positions for the counterions were calculated by analyzing the normal mode dynamics and free energy of the system. The breathing modes of the triple helix are shifted to higher frequencies over those of the double helix by 4-16 cm-1. The characteristic marker band for the B conformation at 835 cm-1 is split up into two marker bands at 830 and 835 cm-1. A detailed comparison of the normal modes and the free energies indicates that the B-form structure, with C'2-endo sugar pucker, is more stable than the A-form structure. The normal modes and the corresponding dipole moments are found to be in close agreement with recent spectroscopic findings.
三螺旋聚(dT)-聚(dA)-聚(dT)的结构构象近来一直是个极具争议的问题。早期基于纤维衍射数据和分子建模的研究表明其为具有C'3-内型糖环构象的A-型结构。另一方面,拉曼光谱、溶液红外光谱和核磁共振研究显示其为具有C'2-内型糖的B-型结构。根据这些实验结果,1993年提出了具有B-型、C'2-内型糖的理论模型。在本工作中,我们在有效局部场方法内研究了这两种构象的动力学和稳定性,该方法应用于该系统的简正模式计算。明确考虑了抗衡离子的存在。通过分析系统的简正模式动力学和自由能计算出抗衡离子的稳定平衡位置。三螺旋的呼吸模式比双螺旋的呼吸模式频率高4 - 16厘米-1。B构象在835厘米-1处的特征标记带分裂为830和835厘米-1处的两个标记带。对简正模式和自由能的详细比较表明,具有C'2-内型糖环构象的B-型结构比A-型结构更稳定。发现简正模式和相应的偶极矩与最近的光谱学研究结果密切一致。