Le calcul du déplacement chimique, un outil de validation des structures d’acides nucléiques

Comptes Rendus de l'Académie des Sciences - Series IIC - Chemistry Pub Date : 2001-10-01 DOI:10.1016/S1387-1609(01)01309-3

Florent Barbault, Gérard Lancelot

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Abstract

The large majority of analytical NMR methods in chemistry or biochemistry are based on the quality of the chemical shift dispersion. The purpose of this work is to show that theoretical chemical shift back calculation starting from structures can be used to select molecular modeling structures in order to differentiate several conformational possibilities. Here we report the result of the chemical shift calculation carried out on two original structures corresponding to two DNA ‘kissing complexes’. The 46 nucleotides sequence corresponds to the RNA deoxyribose analogous implied in the HIV-1_Lai dimerization process. It is interesting to note that, even in cases we are very far from the classical helical structure (loop–loop interaction, AA base pairing, base stacking, misappariement...), the theoretical chemical shift is in very good agreement with the experimental chemical shift (±0.25 ppm). The satisfactory results obtained enable us to conclude that the comparison of the proton chemical shifts is an invaluable tool making it possible to select or to validate oligonucleotides structures.

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化学位移计算，核酸结构验证工具

化学或生物化学中绝大多数的分析核磁共振方法都是基于化学位移色散的质量。这项工作的目的是表明，从结构开始的理论化学位移反演计算可用于选择分子建模结构，以区分几种构象的可能性。在这里，我们报告了化学位移计算的结果进行了两个原始结构对应于两个DNA“接吻复合物”。46个核苷酸序列对应于HIV-1Lai二聚化过程中类似的RNA脱氧核糖。有趣的是，即使我们离经典的螺旋结构(环环相互作用、AA碱基配对、碱基堆叠、错置……)很远的情况下，理论化学位移与实验化学位移(±0.25 ppm)也非常吻合。得到的令人满意的结果使我们能够得出结论，质子化学位移的比较是一种宝贵的工具，使选择或验证寡核苷酸结构成为可能。

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Comptes Rendus de l'Académie des Sciences - Series IIC - Chemistry

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