Wolniak Michał, Oszmiański Jan, Wawer Iwona
Department of Physical Chemistry, Faculty of Pharmacy, Medical University of Warsaw, 02-097 Warsaw, ul. Banacha 1, Poland.
Magn Reson Chem. 2008 Mar;46(3):215-25. doi: 10.1002/mrc.2165.
Three flavonoids of pharmaceutical importance-baicalein, baicalin, and wogonoside-were isolated from a Chinese medicinal plant Scutellaria baicalensis Georgi and studied by 13C NMR in solution and solid state. Two-dimensional (2D) NMR spectroscopy in the liquid phase and dipolar dephasing (DD) experiments in magic-angle spinning (MAS) spectra enabled the assignment of 13C resonances. The cross-polarization (CP) time constants T(CH) and relaxation times T(H) (1rho) were obtained from the variable-contact time experiments. The principal elements of the 13C chemical shift tensor were determined in the spectra recorded under slow sample spinning (2 kHz) using phase-adjusted spinning sideband (PASS)-2D NMR technique, and were verified by density functional theory gauge-independent atomic orbital (DFT GIAO) calculations of shielding constants. Analysis of the 13C delta(ii) and comparison with shielding parameters calculated for different conformers of compounds 1-3 enabled the selection of the most reliable geometry in the solid phase. In all three compounds, an intramolecular hydrogen bond C5--OH...=C4 is formed; the existence of baicalein and baicalin with 'anticlockwise' orientation of OH groups is more probable.
从一种中国药用植物黄芩(Scutellaria baicalensis Georgi)中分离出三种具有药学重要性的黄酮类化合物——黄芩素、黄芩苷和汉黄芩苷,并通过溶液和固态的(^{13}C)核磁共振(NMR)对其进行了研究。液相二维(2D)NMR光谱和魔角旋转(MAS)光谱中的偶极去相(DD)实验实现了(^{13}C)共振的归属。通过可变接触时间实验获得了交叉极化(CP)时间常数(T(CH))和弛豫时间(T(H)(1\rho))。在使用相位调整旋转边带(PASS)-2D NMR技术在慢样品旋转(2 kHz)下记录的光谱中确定了(^{13}C)化学位移张量的主元素,并通过屏蔽常数的密度泛函理论规范无关原子轨道(DFT GIAO)计算进行了验证。对(^{13}C)δ(ii)的分析以及与为化合物1-3的不同构象计算的屏蔽参数的比较,使得能够在固相中选择最可靠的几何结构。在所有三种化合物中,均形成了分子内氢键(C5--OH...=C4);黄芩素和黄芩苷中(OH)基团呈“逆时针”取向的存在可能性更大。
