前列腺素及一些前列腺素类似物的碳-13核磁共振谱
Carbon-13 nuclear magnetic resonance spectra of prostaglandins and some prostaglandin analogs.
作者信息
Cooper G F, Fried J
出版信息
Proc Natl Acad Sci U S A. 1973 May;70(5):1579-84. doi: 10.1073/pnas.70.5.1579.
High-resolution pulsed Fourier-transform nuclear magnetic resonance spectroscopy at 22.63 MHz was used to observe the proton-decoupled natural-abundance (13)C nuclear magnetic resonance spectra of CDCl(3) solutions of the methyl esters of prostaglandins F(1alpha), 15-epi-F(1alpha), F(2alpha), F(2beta), E(2), A(2), 13-dehydro-F(2alpha), 13-dehydro-F(3alpha), two intermediates on the synthetic pathway to 13-dehydro-PGF(3alpha), and of 7-oxa-PGF(1alpha). All resonances were assigned by chemical shift comparisons and single-frequency offresonance proton decoupling. With two exceptions, all the lines of the spectra are well-resolved single-carbon resonances. Those due to the cyclopentane and vinyl carbons are most sensitive to structural changes. Some of these effects can be rationalized in terms of the preferred conformations of the molecules.
使用22.63兆赫兹的高分辨率脉冲傅里叶变换核磁共振光谱法,观察了前列腺素F(1α)、15-表-F(1α)、F(2α)、F(2β)、E(2)、A(2)、13-脱氢-F(2α)、13-脱氢-F(3α)、13-脱氢-PGF(3α)合成途径中的两个中间体以及7-氧杂-PGF(1α)甲酯的CDCl₃溶液的质子去耦自然丰度(¹³)C核磁共振光谱。所有共振峰均通过化学位移比较和单频偏共振质子去耦进行了归属。除两个例外,光谱中的所有谱线都是分辨率良好的单碳共振峰。那些由环戊烷和乙烯基碳产生的共振峰对结构变化最为敏感。其中一些效应可以根据分子的优选构象来解释。
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