A dynamic programming algorithm to predict synthesis processes of tree-structured compounds with graph grammar.

Genome informatics. International Conference on Genome Informatics Pub Date : 2010-01-01 DOI:10.1142/9781848166585_0018
Yang Zhao, Takeyuki Tamura, M. Hayashida, T. Akutsu
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Abstract

For several decades, many methods have been developed for predicting organic synthesis paths. However these methods have non-polynomial computational time. In this paper, we propose a bottom-up dynamic programming algorithm to predict synthesis paths of target tree-structured compounds. In this approach, we transform the synthesis problem of tree-structured compounds to the generation problem of unordered trees by regarding tree-structured compounds and chemical reactions as unordered trees and rules, respectively. In order to represent rules corresponding to chemical reactions, we employ a subclass of NLC (Node Label Controlled) grammars. We also give some computational results on this algorithm.
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基于图语法的树状化合物合成过程预测的动态规划算法。
几十年来,人们开发了许多预测有机合成路径的方法。然而,这些方法的计算时间都是非多项式的。本文提出了一种自下而上的动态规划算法来预测目标树状结构化合物的合成路径。在这种方法中,我们将树状结构化合物和化学反应分别视为无序树和规则,将树状结构化合物的合成问题转化为无序树的生成问题。为了表示与化学反应相对应的规则,我们使用了NLC(节点标签控制)语法的一个子类。最后给出了该算法的一些计算结果。
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Genome informatics. International Conference on Genome Informatics
Genome informatics. International Conference on Genome Informatics
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