Modelling enzyme inhibition toxicity of ionic liquid from molecular structure via convolutional neural network model.

IF 2.3 3区 环境科学与生态学 Q3 CHEMISTRY, MULTIDISCIPLINARY
R Zhang, Y Chen, D Fan, T Liu, Z Ma, Y Dai, Y Wang, Z Zhu
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引用次数: 0

Abstract

Deep learning (DL) methods further promote the development of quantitative structure-activity/property relationship (QSAR/QSPR) models by dealing with complex relationships between data. An acetylcholinesterase inhibitory toxicity model of ionic liquids (ILs) was established using a convolution neural network (CNN) combined with support vector machine (SVM), random forest (RF) and multilayer perceptron (MLP). A CNN model was proposed for feature self-learning and extraction of ILs. By comparing with the model results through feature engineering (FE), the model regression results based on the CNN model for feature extraction have been substantially improved. The results showed that all six models (FE-SVM, FE-RF, FE-MLP, CNN-SVM, CNN-RF, and CNN-MLP) had good prediction accuracy, but the results based on the CNN model were better. The hyperparameters of six models were optimized by grid search and the 10-fold cross validation. Compared with the existing models in the literature, the model performance has been further improved. The model could be used as an intelligent tool to guide the design or screening of low-toxicity ILs.

利用卷积神经网络模型从分子结构上模拟离子液体的酶抑制毒性。
深度学习(DL)方法通过处理数据之间的复杂关系,进一步促进了定量构效关系(QSAR/QSPR)模型的发展。将卷积神经网络(CNN)与支持向量机(SVM)、随机森林(RF)和多层感知器(MLP)相结合,建立了离子液体乙酰胆碱酯酶抑制毒性模型。提出了一种用于ILs特征自学习和提取的CNN模型。通过与特征工程(FE)的模型结果进行比较,基于CNN模型的特征提取模型回归结果得到了显著改进。结果表明,所有六个模型(FE-SVM、FE-RF、FE-MLP、CNN-SVM、CNN-RF和CNN-MLP)都具有良好的预测精度,但基于CNN模型的结果更好。通过网格搜索和10倍交叉验证对6个模型的超参数进行了优化。与文献中现有的模型相比,模型性能得到了进一步的提高。该模型可作为指导低毒离子液体设计或筛选的智能工具。
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来源期刊
CiteScore
5.20
自引率
20.00%
发文量
78
审稿时长
>24 weeks
期刊介绍: SAR and QSAR in Environmental Research is an international journal welcoming papers on the fundamental and practical aspects of the structure-activity and structure-property relationships in the fields of environmental science, agrochemistry, toxicology, pharmacology and applied chemistry. A unique aspect of the journal is the focus on emerging techniques for the building of SAR and QSAR models in these widely varying fields. The scope of the journal includes, but is not limited to, the topics of topological and physicochemical descriptors, mathematical, statistical and graphical methods for data analysis, computer methods and programs, original applications and comparative studies. In addition to primary scientific papers, the journal contains reviews of books and software and news of conferences. Special issues on topics of current and widespread interest to the SAR and QSAR community will be published from time to time.
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