Emine Sager, Pavleta Tzvetkova, Andreas Lingel, Alvar D. Gossert, Burkhard Luy
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引用次数: 0
摘要
根据在手性聚-γ-苄基-L-谷氨酸(PBLG)中配位获得的残余各向异性参数来区分对映体,是高分辨率核磁共振光谱中最有效的方法之一。然而,在不同溶质之间经常观察到对映体差异的巨大差异。一种假设认为,溶质与 PBLG 之间形成的氢键对区分对映体非常重要。通过测量 1DCH 残余偶极耦合,我们系统地解决了这一问题:龙脑含有一个可作为氢键供体的官能团,樟脑有一个可作为氢键受体的官能团,而奎尼丁醇既可作为氢键供体,也可作为氢键受体。结果是明确的:虽然樟脑在 PBLG 和配位中显示出较低的对映体差异,纯立体 TRAMITE 方法也能很好地预测对映体差异,但其他对映体对的对映体差异显著较高,其配位特性除立体配位外还必须涉及特定的相互作用。
Hydrogen bond formation may enhance RDC-based discrimination of enantiomers
The distinction of enantiomers based on residual anisotropic parameters obtained by alignment in chiral poly-γ-benzyl-L-glutamate (PBLG) is among the strongest in high-resolution NMR spectroscopy. However, large variations in enantiodifferentiation among different solutes are frequently observed. One hypothesis is that the formation of hydrogen bonds between solute and PBLG is important for the distinction of enantiomers. With a small set of three almost spherical enantiomeric pairs, for which 1DCH residual dipolar couplings are measured, we address this issue in a systematic way: borneol contains a single functional group that can act as a hydrogen bond donor, camphor has a single group that may act as a hydrogen bond acceptor, and quinuclidinol can act as both hydrogen bond donor and acceptor. The results are unambiguous: although camphor shows low enantiodifferentiation with PBLG and alignment that can be predicted well by the purely steric TRAMITE approach, the distinction of enantiomers for the other enantiomeric pairs is significantly higher with alignment properties that must involve a specific interaction in addition to steric alignment.
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