Gtie-Rt:用于预测以人类代谢途径为靶点的药物的综合图学习模型。

IF 0.9 4区 生物学 Q4 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Hayat Ali Shah, Juan Liu, Zhihui Yang
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引用次数: 0

摘要

药物通常针对特定的代谢途径产生治疗效果。然而,这些途径复杂且相互关联,因此预测药物对生物体整体代谢的潜在影响具有挑战性。绘制以生物体内代谢途径为靶点的药物图谱可以更全面地了解药物的代谢效应,并有助于识别潜在的药物间相互作用。在这项研究中,我们提出了一种机器学习混合模型 Graph Transformer Integrated Encoder (GTIE-RT),用于绘制药物在人体内的靶向代谢途径图。该模型由图形卷积网络(GCN)和用于图形嵌入和关注机制的变换器编码器组成。转换器编码器的输出被输入到极随机树分类器中,以预测目标代谢途径。在药物数据集上对 GTIE-RT 进行的评估显示了其出色的性能指标,包括准确率(>95%)、召回率(>92%)、精确率(>93%)和 F1 分数(>92%)。与其他变体和机器学习方法相比,GTIE-RT 始终显示出更可靠的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gtie-Rt: A comprehensive graph learning model for predicting drugs targeting metabolic pathways in human.

Drugs often target specific metabolic pathways to produce a therapeutic effect. However, these pathways are complex and interconnected, making it challenging to predict a drug's potential effects on an organism's overall metabolism. The mapping of drugs with targeting metabolic pathways in the organisms can provide a more complete understanding of the metabolic effects of a drug and help to identify potential drug-drug interactions. In this study, we proposed a machine learning hybrid model Graph Transformer Integrated Encoder (GTIE-RT) for mapping drugs to target metabolic pathways in human. The proposed model is a composite of a Graph Convolution Network (GCN) and transformer encoder for graph embedding and attention mechanism. The output of the transformer encoder is then fed into the Extremely Randomized Trees Classifier to predict target metabolic pathways. The evaluation of the GTIE-RT on drugs dataset demonstrates excellent performance metrics, including accuracy (>95%), recall (>92%), precision (>93%) and F1-score (>92%). Compared to other variants and machine learning methods, GTIE-RT consistently shows more reliable results.

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来源期刊
Journal of Bioinformatics and Computational Biology
Journal of Bioinformatics and Computational Biology MATHEMATICAL & COMPUTATIONAL BIOLOGY-
CiteScore
2.10
自引率
0.00%
发文量
57
期刊介绍: The Journal of Bioinformatics and Computational Biology aims to publish high quality, original research articles, expository tutorial papers and review papers as well as short, critical comments on technical issues associated with the analysis of cellular information. The research papers will be technical presentations of new assertions, discoveries and tools, intended for a narrower specialist community. The tutorials, reviews and critical commentary will be targeted at a broader readership of biologists who are interested in using computers but are not knowledgeable about scientific computing, and equally, computer scientists who have an interest in biology but are not familiar with current thrusts nor the language of biology. Such carefully chosen tutorials and articles should greatly accelerate the rate of entry of these new creative scientists into the field.
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