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Regularized Machine Learning in the Genetic Prediction of Complex Traits
Sebastian Okser, Tapio Pahikkala, Antti Airola, Tapio Salakoski, Samuli Ripatti, Tero Aittokallio, Regularized Machine Learning in the Genetic Prediction of Complex Traits. Plos Genetics 10(11), e1004754, 2014.
http://dx.doi.org/10.1371/journal.pgen.1004754
Abstract:
Compared to univariate analysis of genome-wide association (GWA) studies, machine learning–based models have been shown to provide improved means of learning such multilocus panels of genetic variants and their interactions that are most predictive of complex phenotypic traits. Many applications of predictive modeling rely on effective variable selection, often implemented through model regularization, which penalizes the model complexity and enables predictions in individuals outside of the training dataset. However, the different regularization approaches may also lead to considerable differences, especially in the number of genetic variants needed for maximal predictive accuracy, as illustrated here in examples from both disease classification and quantitative trait prediction. We also highlight the potential pitfalls of the regularized machine learning models, related to issues such as model overfitting to the training data, which may lead to over-optimistic prediction results, as well as identifiability of the predictive variants, which is important in many medical applications. While genetic risk prediction for human diseases is used as a motivating use case, we argue that these models are also widely applicable in nonhuman applications, such as animal and plant breeding, where accurate genotype-to-phenotype modeling is needed. Finally, we discuss some key future advances, open questions and challenges in this developing field, when moving toward low-frequency variants and cross-phenotype interactions.
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BibTeX entry:
@ARTICLE{jOkPaAiSaRiAi14a,
title = {Regularized Machine Learning in the Genetic Prediction of Complex Traits},
author = {Okser, Sebastian and Pahikkala, Tapio and Airola, Antti and Salakoski, Tapio and Ripatti, Samuli and Aittokallio, Tero},
journal = {Plos Genetics},
volume = {10},
number = {11},
pages = {e1004754},
year = {2014},
ISSN = {1553-7390},
}
Belongs to TUCS Research Unit(s): Algorithmics and Computational Intelligence Group (ACI), Biomathematics Research Unit (BIOMATH)
Publication Forum rating of this publication: level 2