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. 2017 Jul 11;18(1):332.
doi: 10.1186/s12859-017-1740-7.

Incorporating biological information in sparse principal component analysis with application to genomic data

Ziyi Li  1 Sandra E Safo  1 Qi Long  2
Affiliations

Incorporating biological information in sparse principal component analysis with application to genomic data

Ziyi Li et al. BMC Bioinformatics. .

Abstract

Background: Sparse principal component analysis (PCA) is a popular tool for dimensionality reduction, pattern recognition, and visualization of high dimensional data. It has been recognized that complex biological mechanisms occur through concerted relationships of multiple genes working in networks that are often represented by graphs. Recent work has shown that incorporating such biological information improves feature selection and prediction performance in regression analysis, but there has been limited work on extending this approach to PCA. In this article, we propose two new sparse PCA methods called Fused and Grouped sparse PCA that enable incorporation of prior biological information in variable selection.

Results: Our simulation studies suggest that, compared to existing sparse PCA methods, the proposed methods achieve higher sensitivity and specificity when the graph structure is correctly specified, and are fairly robust to misspecified graph structures. Application to a glioblastoma gene expression dataset identified pathways that are suggested in the literature to be related with glioblastoma.

Conclusions: The proposed sparse PCA methods Fused and Grouped sparse PCA can effectively incorporate prior biological information in variable selection, leading to improved feature selection and more interpretable principal component loadings and potentially providing insights on molecular underpinnings of complex diseases.

Keywords: Genomic data; Principal component analysis; Sparsity; Structural information.

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Competing interests

The authors declare that they have no competing interests.

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Figures

Fig. 1
Fig. 1
Network structure of simulated data: Correctly specified graph. Variables in circle represent signals, and square represent noise. (G=G0)
See this image and copyright information in PMC

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