Da-Bin Lee scite author profile

Da-Bin Lee

3Publications

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Soongsil University

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Gene-specific machine learning for pathogenicity prediction of rare BRCA1 and BRCA2 missense variants

Kang¹,

Kim²,

Lee

et al. 2023

Sci Rep

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Machine learning-based pathogenicity prediction helps interpret rare missense variants of BRCA1 and BRCA2, which are associated with hereditary cancers. Recent studies have shown that classifiers trained using variants of a specific gene or a set of genes related to a particular disease perform better than those trained using all variants, due to their higher specificity, despite the smaller training dataset size. In this study, we further investigated the advantages of “gene-specific” machine learning compared to “disease-specific” machine learning. We used 1068 rare (gnomAD minor allele frequency (MAF) < 0.005) missense variants of 28 genes associated with hereditary cancers for our investigation. Popular machine learning classifiers were employed: regularized logistic regression, extreme gradient boosting, random forests, support vector machines, and deep neural networks. As features, we used MAFs from multiple populations, functional prediction and conservation scores, and positions of variants. The disease-specific training dataset included the gene-specific training dataset and was > 7 × larger. However, we observed that gene-specific training variants were sufficient to produce the optimal pathogenicity predictor if a suitable machine learning classifier was employed. Therefore, we recommend gene-specific over disease-specific machine learning as an efficient and effective method for predicting the pathogenicity of rare BRCA1 and BRCA2 missense variants.

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Deep Neural Networks with Feature Extraction for Target-gene Expression Level Prediction Based on Landmark Genes

Lee¹,

Hwang²

2020

KTCP

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Gene-specific machine learning for pathogenicity prediction of rare BRCA1 and BRCA2 missense variants

Kang¹,

Kim²,

Lee

et al. 2023

Preprint

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Machine learning-based pathogenicity prediction helps interpret rare missense variants of BRCA1 and BRCA2, which are associated with hereditary cancers. Recent studies have shown that classifiers trained using variants of a specific gene or a set of genes related to a particular disease perform better than those trained using all variants, due to their higher specificity, despite the smaller training dataset size. In this study, we further investigated the advantages of “gene-specific” machine learning compared to “disease-specific” machine learning. We used 1068 rare (gnomAD minor allele frequency (MAF) < 0.005) missense variants of 28 genes associated with hereditary cancers for our investigation. Popular machine learning classifiers were employed: regularized logistic regression, extreme gradient boosting, random forests, support vector machines, and deep neural networks. As features, we used MAFs from multiple populations, functional prediction and conservation scores, and positions of variants. The disease-specific training dataset was more than seven times larger than and included the gene-specific training dataset. However, we observed that gene-specific training variants were sufficient to produce the optimal pathogenicity predictor if a suitable machine learning classifier was employed. Therefore, we recommend gene-specific machine learning as an efficient and effective method for the pathogenicity prediction of rare BRCA1 and BRCA2 missense variants.

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Da-Bin Lee

Gene-specific machine learning for pathogenicity prediction of rare BRCA1 and BRCA2 missense variants

Deep Neural Networks with Feature Extraction for Target-gene Expression Level Prediction Based on Landmark Genes

Gene-specific machine learning for pathogenicity prediction of rare BRCA1 and BRCA2 missense variants

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