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A Molecular Image-Based Novel Quantitative Structure-Activity Relationship Approach, Deepsnap-Deep Learning and Machine Learning

人工智能 机器学习 数量结构-活动关系 计算机科学 深度学习 领域(数学) 构造(python库) 特征提取 特征选择 大数据 代表(政治) 数据挖掘 数学 纯数学 程序设计语言 政治 政治学 法学
作者
Yasunari Matsuzaka,Yoshihiro Uesawa
出处
期刊:Current Issues in Molecular Biology [Caister Academic Press]
卷期号:: 455-472 被引量:11
标识
DOI:10.21775/cimb.042.455
摘要

The quantitative structure-activity relationship (QSAR) approach has been used in numerous chemical compounds as in silico computational assessment for a long time. Further, owing to the high-performance modeling of QSAR, machine learning methods have been developed and upgraded. Particularly, the three- dimensional structure of chemical compounds has been gaining increasing attention owing to the representation of a large amount of information. However, only many of feature extraction is impossible to build models with the high-ability of the prediction. Thus, suitable extraction and effective selection of features are essential for models with excellent performance. Recently, the deep learning method has been employed to construct prediction models with very high performance using big data, especially, in the field of classification. Therefore, in this study, we developed a molecular image-based novel QSAR approach, called DeepSnap-Deep learning approach for designing high-performance models. In addition, this DeepSnap-Deep learning approach outperformed the conventional machine learnings when they are compared. Herein, we discuss the advantage and disadvantages of the machine learnings as well as the availability of the DeepSnap-Deep learning approach.

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