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An entropy-based directed random walk for cancer classification using gene expression data based on bi-random walk on two separated networks

Tay, Xin Hui and Kasim, Shahreen and Tole Sutikno, Tole Sutikno and Md. Fudzee, Mohd. Farhan and Hassan, Rohayanti and Patah Akhir, Emelia Akashah and Aziz, Norshakirah and Seah, Choon Sen (2023) An entropy-based directed random walk for cancer classification using gene expression data based on bi-random walk on two separated networks. Genes, 14 (3). pp. 1-13. ISSN 2073-4425

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Official URL: http://dx.doi.org/10.3390/genes14030574

Abstract

The integration of microarray technologies and machine learning methods has become popular in predicting the pathological condition of diseases and discovering risk genes. Traditional microarray analysis considers pathways as a simple gene set, treating all genes in the pathway identically while ignoring the pathway network’s structure information. This study proposed an entropy-based directed random walk (e-DRW) method to infer pathway activities. Two enhancements from the conventional DRW were conducted, which are (1) to increase the coverage of human pathway information by constructing two inputting networks for pathway activity inference, and (2) to enhance the gene-weighting method in DRW by incorporating correlation coefficient values and t-test statistic scores. To test the objectives, gene expression datasets were used as input datasets while the pathway datasets were used as reference datasets to build two directed graphs. The within-dataset experiments indicated that e-DRW method demonstrated robust and superior performance in terms of classification accuracy and robustness of the predicted risk-active pathways compared to the other methods. In conclusion, the results revealed that e-DRW not only improved the prediction performance, but also effectively extracted topologically important pathways and genes that were specifically related to the corresponding cancer types.

Item Type:Article
Uncontrolled Keywords:cancer classification, directed random walk, pathway-based analysis
Subjects:T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK7885-7895 Computer engineer. Computer hardware
Divisions:Electrical Engineering
ID Code:107433
Deposited By: Widya Wahid
Deposited On:17 Sep 2024 07:37
Last Modified:17 Sep 2024 07:37

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