基于人工神经网络的QSPR和DFT预测硫鸟嘌呤的亲脂性

IF 1.3 4区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY

Main Group Chemistry Pub Date : 2022-03-29 DOI:10.3233/mgc-220008

Somaye Mir Mohammad Hoseini Ahari, M. Mirzaei

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引用次数: 0

摘要

基于探索硫鸟嘌呤(TG)抗癌特性的重要性，采用定量构效关系(QSPR)方法研究了两种分离态和壳聚糖包封态下TG互变异构体的量子化学指标与亲脂性之间的关系。因此，选择了20个不同的TG互变异构体形式来使用QSPR模型预测logP。密度泛函理论(DFT)计算与龙包应用于估计所需的量子化学描述子。使用Pearson相关系数统计检验和Kennard-Stone算法分别度量统计关系和将数据划分为训练集和测试集。此外，采用多元线性回归(MLR)和人工神经网络(ANN)方法生成模型。对此，采用方差分析(ANOVA)形成检验MLR和ANN结果显著性的基本标准。此外，采用留一法(LOO)检验所选模型的预测效率。所得结果表明，所提出的模型对于预测logP的可靠结果是有益的。

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The artificial neural network-based QSPR and DFT prediction of lipophilicity for thioguanine

By the importance of exploring anti-cancer properties of thioguanine (TG), the relationships between quantum chemical indices and lipophilicity of TG tautomers were investigated using the quantitative structure-property relationship (QSPR) approach in two isolated and chitosan-encapsulated states. Accordingly, twenty numbers of different tautomeric forms of TG were selected to predict the logP using the QSPR models. Density functional theory (DFT) calculations along with Dragon package were applied to estimate the required quantum chemical descriptors. The Pearson correlation coefficient statistical test and Kennard-Stone algorithm were used to measure the statistical relationship and data splitting into training and testing set, respectively. Furthermore, the multiple linear regression (MLR) and artificial neural network (ANN) methods were employed for generating the models. In this regard, the analysis of variance (ANOVA) was used to form a basis criterion for testing the significance of MLR and ANN results. Moreover, the leave one out (LOO) method was used for examining the prediction efficiency of select models. The obtained result indicated benefits of proposed models for predicting reliable results of logP.

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来源期刊

Main Group Chemistry 化学-化学综合

CiteScore

2.00

自引率

26.70%

发文量

审稿时长

>12 weeks

期刊介绍： Main Group Chemistry is intended to be a primary resource for all chemistry, engineering, biological, and materials researchers in both academia and in industry with an interest in the elements from the groups 1, 2, 12–18, lanthanides and actinides. The journal is committed to maintaining a high standard for its publications. This will be ensured by a rigorous peer-review process with most articles being reviewed by at least one editorial board member. Additionally, all manuscripts will be proofread and corrected by a dedicated copy editor located at the University of Kentucky.