An Attempt Method for Developing New Synthetic Routes by Fusing Computational Chemistry and Chemoinformatics: Syntheses of Ethyl and Benzyl Methacrylates

Journal of Computer Aided Chemistry Pub Date : 2007-01-01 DOI:10.2751/jcac.8.12

K. Hori, Hirotaka Sadatomi, Katsuhiko Okano, Michinori Sumimoto, Atsuo Miyamoto, S. Hayashi, Hidetoshi Yamamotoa

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引用次数: 1

Abstract

In synthesizing target compounds, synthetic chemists search for and examine papers concerning syntheses to create their own synthetic routes. Synthetic route design system programs such as AIPHOS and EROS can also create many synthetic routes for targets compounds. However, it takes a long time to experimentally test all the routes created by these programs. Therefore, computational chemistry has been used to investigate mechanisms of chemical reactions which have already been examined experimentally. It is feasible to consider theoretical methods as effective in examining whether or not synthetic routes from chemoinformatics can be used practically for synthesizing target compounds. There are many difficulties associated with the aforementioned application, because theoretical calculations have to be done without information from experimental works. In the present study, we proved that this concept works well for synthetic routes of benzyl methacrylate, created from the KOSP and TOSP programs.

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融合计算化学和化学信息学开发新合成路线的尝试方法:甲基丙烯酸乙酯和甲基丙烯酸苄酯的合成

在合成目标化合物的过程中，合成化学家搜索和检查有关合成的论文，以创建自己的合成路线。AIPHOS和EROS等合成路线设计系统程序也可以为目标化合物创建许多合成路线。然而，实验测试这些程序创建的所有路由需要很长时间。因此，计算化学已被用于研究化学反应的机制，而这些化学反应已被实验检验过。将理论方法作为检验化学信息学合成路线是否可实际用于合成目标化合物的有效方法是可行的。上述应用有许多困难，因为理论计算必须在没有实验工作资料的情况下进行。在本研究中，我们证明了这一概念适用于由KOSP和TOSP程序创建的甲基丙烯酸苄酯合成路线。

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Journal of Computer Aided Chemistry CHEMISTRY, MULTIDISCIPLINARY-

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