MLR和ANN对一系列脂肪酸、二羧酸和氨基酸GC保留时间的QSPR研究

Ahmad Rouhollahi, Hooshang Shafieyan, Jahan Bakhsh Ghasemi
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引用次数: 7

摘要

对一系列脂肪酸、氨基酸和二羧酸进行了定量构效关系(QSPR)分析,以模拟它们的GC保留时间。采用遗传偏最小二乘法(GAPLS)作为变量选择工具。通过多元线性回归(MLR)和人工神经网络(ANN)建立了这些化合物的保留时间作为理论推导描述符的函数模型。这里使用的神经网络是一个3-4-1结构的连接反向传播系统。这些化合物的三个拓扑指数,即原子组成平均信息指数(AAC)、平均连通性指数chi-0 (X0A)和原子组成总信息指数(IAC)作为回归模型的输入。结果表明,遗传算法是一种非常有效的QSPR分析变量选择方法。两种回归方法的比较表明,人工神经网络的预测能力优于MLR。两种模型的优劣统计图表明,用分子描述符成功地建立了保留时间的模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A QSPR Study on the GC Retention Times of a Series of Fatty, Dicarboxylic and Amino Acids by MLR and ANN

Quantitative structure–property relationship (QSPR) analysis has been carried out to a series of fatty, amino and dicarboxylic acids to model their GC retention times. A genetic partial least square method (GAPLS) was applied as a variable selection tool. Modeling of retention times of these compounds as a function of the theoretically derived descriptors was established by multiple linear regression (MLR) and artificial neural network (ANN). The neural network employed here is a connected back-propagation system with a 3-4-1 architecture. Three topological indices for these compounds, namely, mean information index on atomic composition (AAC), average connectivity index chi-0 (X0A) and total information index of atomic composition (IAC) taken as inputs for the regression models. The results indicate that the GA is a very effective variable selection approach for QSPR analysis. The comparison of the two regression methods used showed that ANN has better prediction ability than MLR. The statistical figure of merits of the two models showed the successful modeling of the retention times with molecular descriptors.

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