Martin Gary E, Hilton Bruce D, Irish Patrick A, Blinov Kirill A, Williams Antony J
Schering-Plough Research Institute, Summit, New Jersey 07901, USA.
J Nat Prod. 2007 Sep;70(9):1393-6. doi: 10.1021/np070221j. Epub 2007 Aug 11.
GHSQC-TOCSY experiments allow sorting of proton-proton connectivity information as a function of (13)C chemical shift. GHSQC-TOCSY is a relatively insensitive 2D NMR experiment. Given two coherence transfer experiments, A --> B and A --> C, it is possible to indirectly determine B <--> C. Unsymmetrical indirect covariance processing of a (1)H- (13)C GHSQC and a GCOSY spectrum afforded a GHSQC-COSY spectrum, with an information content analogous to a GHSQC-TOCSY experiment. However, GHSQC-TOCSY is of significantly lower sensitivity and the data require considerably more time to acquire than either of the component experiments. Investigators needing access to GHSQC-TOCSY type data can, in principle, access it from more readily acquired 2D NMR data. Strychnine ( 1) was used as a model compound to illustrate this capability.
GHSQC - TOCSY实验允许根据¹³C化学位移对质子 - 质子连接信息进行分类。GHSQC - TOCSY是一种相对不灵敏的二维核磁共振实验。给定两个相干转移实验,A→B和A→C,可以间接确定B⇄C。对¹H - ¹³C GHSQC和GCOSY谱进行非对称间接协方差处理可得到一个GHSQC - COSY谱,其信息含量与GHSQC - TOCSY实验类似。然而,GHSQC - TOCSY的灵敏度要低得多,且与任何一个组成实验相比,获取数据所需的时间都长得多。原则上,需要获取GHSQC - TOCSY类型数据的研究人员可以从更容易获取的二维核磁共振数据中获取。士的宁(1)被用作模型化合物来说明这种能力。
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