Lee Ho-Jin, Kim Jong Hyun, Jung Hee Jung, Kim Kun-Young, Kim Eun-Jung, Choi Young-Sang, Yoon Chang-Ju
Department of Chemistry, Korea University, 1 Anam dong, Seoul, 136-701, Korea.
J Comput Chem. 2004 Jan 30;25(2):169-78. doi: 10.1002/jcc.10364.
The effect of thioamide substitution on the conformational stability of an azaglycine-containing peptide, For-AzaGly-NH2 (1), was investigated for the sake of finding possible applications by using ab initio and DFT methods. As model compounds, For-[psiCSNH]-AzaGly-NH2 (2), For-AzaGly-[psiCSNH]-NH2 (3), and For-[psiCSNH]-AzaGly-[psiCSNH]-NH2 (4) were used. Two-dimensional phi-psi potential energy surfaces (PESs) for 2-4 were calculated at the B3LYP/6-31G*//HF/6-31G* level in gas (epsilon = 1.0) and in water (epsilon = 78.4) by applying the isodensity polarizable continuum model (IPCM) method. On the basis of these PESs, the minimum energy conformations for 2-4 were characterized at the B3LYP level with 6-31G*, 6-311G**, and 6-31+G** basis sets. The remarkable structural effect of thioamide substitution for 2-4 is that beta-strand structure is observed as a global or local minimum. The minima of 2-4 are also compared with those for glycine and thioamide-containing glycine peptides. Our theoretical results demonstrate that compounds 2-4 would be used to design controllable secondary structures.
为了寻找可能的应用,采用从头算和密度泛函理论方法研究了硫代酰胺取代对含氮杂甘氨酸肽For-AzaGly-NH2(1)构象稳定性的影响。使用For-[psiCSNH]-AzaGly-NH2(2)、For-AzaGly-[psiCSNH]-NH2(3)和For-[psiCSNH]-AzaGly-[psiCSNH]-NH2(4)作为模型化合物。通过应用等密度极化连续介质模型(IPCM)方法,在B3LYP/6-31G*//HF/6-31G水平下计算了2-4在气相(ε = 1.0)和水相(ε = 78.4)中的二维φ-ψ势能面(PESs)。基于这些PESs,在B3LYP水平下使用6-31G、6-311G和6-31+G基组对2-4的最低能量构象进行了表征。硫代酰胺取代对2-4的显著结构影响是观察到β-链结构为全局或局部最小值。还将2-4的最小值与甘氨酸和含硫代酰胺的甘氨酸肽的最小值进行了比较。我们的理论结果表明,化合物2-4可用于设计可控的二级结构。
