Calculated conformer energies for organic molecules with multiple polar functionalities are method dependent: Taxol (case study).

BMC chemical biology Pub Date : 2001-01-01 DOI:10.1186/1472-6769-1-2

Ami Lakdawala, Minmin Wang, Neysa Nevins, Dennis C Liotta, Danuta Rusinska-Roszak, Marek Lozynski, James P Snyder

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Abstract

BACKGROUND: Molecular mechanics (MM) and quantum chemical (QM) calculations are widely applied and powerful tools for the stereochemical and conformational investigations of molecules. The same methods have been extensively used to probe the conformational profile of Taxol (Figure 1) both in solution and at the beta-tubulin protein binding site. RESULTS: In the present work, the relative energies of seven conformations of Taxol derived from NMR and X-ray analyses were compared with a set of widely used force fields and semiempirical MO methods coupled to a continuum solvent treatment. The procedures not only diverge significantly in their assessment of relative conformational energies, but none of them provide satisfactory agreement with experiment. CONCLUSIONS: For Taxol, molecular mechanics and semiempirical QM methods are unable to provide a consistent energetic ranking of side-chain conformations. For similar highly polar organic structures, "energy-free" conformational search methods are advised.

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具有多种极性官能团的有机分子的计算构象能量与方法有关：紫杉醇（案例研究）。

背景：分子力学（MM）和量子化学（QM）计算是广泛应用于分子立体化学和构象研究的强大工具。同样的方法已被广泛用于探究 Taxol（图 1）在溶液中和β-微管蛋白结合位点的构象轮廓。结果：在本研究中，将核磁共振和 X 射线分析得出的 Taxol 七种构象的相对能量与一套广泛使用的力场和半经验 MO 方法以及连续溶剂处理方法进行了比较。这些方法不仅在评估相对构象能量方面存在显著差异，而且没有一种方法能与实验达成令人满意的一致。结论：对于紫杉醇，分子力学和半经验质量管理方法无法提供一致的侧链构象能量排序。对于类似的高极性有机结构，建议采用 "无能量 "构象搜索方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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BMC chemical biology

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