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用于核磁共振手性识别的具有多个氢键位点的多功能实用大环试剂。

Versatile and practical macrocyclic reagent with multiple hydrogen-bonding sites for chiral discrimination in NMR.

作者信息

Ema Tadashi, Tanida Daisuke, Sakai Takashi

机构信息

Division of Chemistry and Biochemistry, Graduate School of Natural Science and Technology, Okayama University, Tsushima, Okayama 700-8530, Japan.

出版信息

J Am Chem Soc. 2007 Aug 29;129(34):10591-6. doi: 10.1021/ja073476s. Epub 2007 Aug 4.

Abstract

Bifunctional macrocycles 1-4 and diamide 5 were designed and synthesized. NMR studies demonstrated that, among them, receptor 1 functions as the best chiral solvating agent (shift reagent), which is effective for a wide range of chiral compounds having a carboxylic acid, oxazolidinone, carbonate, lactone, alcohol, sulfoxide, sulfoximine, sulfinamide, isocyanate, or epoxide functionality. The addition of only 5 mol % (69 microg, 0.15 mM) of 1 splits the enantiomeric signals of sulfoxide 13. The excellent performance of 1 as a chiral solvating agent, such as versatility, signal sharpness, high splitting ability, high sensitivity, wide detection window, and synthetic accessibility, is reported. NMR studies revealed that the principal binding site of 1 is the two amide NH groups of the lower segment and that the additional binding site is the pyridyl nitrogen. The V-shaped arrangement of the two 2,6-diacylaminopyridine moieties as constructed in 1 was found to be much more effective for binding a variety of compounds than the parallel alignment of the two binding motifs as constructed in 4. The NO2 group in 1 enhanced not only the binding ability but also the degree of enantioselectivity. Unexpectedly, the comparisons between 1 and 3 enabled us to find the importance of the relative orientation of the binaphthyl moiety; the orthogonal disposition of the binaphthyl moiety in 1 most effectively brings about the differential ring-current effect on the chiral guest molecule bound, which leads to the high degree of chiral discrimination in NMR.

摘要

设计并合成了双功能大环化合物1 - 4和二酰胺5。核磁共振研究表明,其中受体1作为最佳的手性溶剂化剂(位移试剂),对具有羧酸、恶唑烷酮、碳酸酯、内酯、醇、亚砜、亚磺酰亚胺、亚磺酰胺、异氰酸酯或环氧化物官能团的多种手性化合物有效。仅加入5 mol%(69微克,0.15毫摩尔)的1就能使亚砜13的对映体信号分开。报道了1作为手性溶剂化剂的优异性能,如通用性、信号清晰度、高拆分能力、高灵敏度、宽检测窗口和合成可及性。核磁共振研究表明,1的主要结合位点是下段的两个酰胺NH基团,额外的结合位点是吡啶氮。发现1中构建的两个2,6 - 二酰基氨基吡啶部分的V形排列在结合各种化合物方面比4中构建的两个结合基序的平行排列更有效。1中的NO2基团不仅增强了结合能力,还提高了对映选择性程度。出乎意料的是,1和3之间的比较使我们发现了联萘部分相对取向的重要性;1中联萘部分的正交排列最有效地对手性客体分子产生不同的环电流效应,这导致核磁共振中高度的手性识别。

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