氨基酸的第一性原理计算与多核磁共振固态实验联合研究

Combined first-principles computational and experimental multinuclear solid-state NMR investigation of amino acids.

作者信息

Gervais Christel, Dupree Ray, Pike Kevin J, Bonhomme Christian, Profeta Mickaël, Pickard Chris J, Mauri Francesco

机构信息

Laboratoire de Chimie de la Matière Condensée, UMR CNRS 7574, Université Pierre et Marie Curie, 4 place Jussieu, 75005 Paris, France.

出版信息

J Phys Chem A. 2005 Aug 11;109(31):6960-9. doi: 10.1021/jp0513925.

DOI:10.1021/jp0513925

PMID:16834055

Abstract

13C, 14N, 15N, 17O, and 35Cl NMR parameters, including chemical shift tensors and quadrupolar tensors for 14N, 17O, and 35Cl, are calculated for the crystalline forms of various amino acids under periodic boundary conditions and complemented by experiment where necessary. The 13C shift tensors and 14N electric field gradient (EFG) tensors are in excellent agreement with experiment. Similarly, static 17O NMR spectra could be precisely simulated using the calculation of the full chemical shift (CS) tensors and their relative orientation with the EFG tensors. This study allows correlations to be found between hydrogen bonding in the crystal structures and the 17O NMR shielding parameters and the 35Cl quadrupolar parameters, respectively. Calculations using the two experimental structures for L-alanine have shown that, while the calculated isotropic chemical shift values of 13C and 15N are relatively insensitive to small differences in the experimental structure, the 17O shift is markedly affected.

摘要

在周期性边界条件下，计算了各种氨基酸晶体形式的13C、14N、15N、17O和35Cl核磁共振参数，包括14N、17O和35Cl的化学位移张量和四极张量，并在必要时通过实验进行补充。13C位移张量和14N电场梯度（EFG）张量与实验结果非常吻合。同样，使用全化学位移（CS）张量及其与EFG张量的相对取向计算，可以精确模拟静态17O核磁共振谱。该研究分别发现了晶体结构中的氢键与17O核磁共振屏蔽参数和35Cl四极参数之间的相关性。使用L-丙氨酸的两种实验结构进行的计算表明，虽然13C和15N的计算各向同性化学位移值对实验结构的微小差异相对不敏感，但17O位移受到显著影响。

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氨基酸的第一性原理计算与多核磁共振固态实验联合研究

Combined first-principles computational and experimental multinuclear solid-state NMR investigation of amino acids.

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