A Nonparametric Multi-view Model for Estimating Cell Type-Specific Gene Regulatory Networks
Abstract
We present a Bayesian hierarchical multi-view mixture model termed Symphony that simultaneously learns clusters of cells representing cell types and their underlying gene regulatory networks by integrating data from two views: single-cell gene expression data and paired epigenetic data, which is informative of gene-gene interactions. This model improves interpretation of clusters as cell types with similar expression patterns as well as regulatory networks driving expression, by explaining gene-gene covariances with the biological machinery regulating gene expression. We show the theoretical advantages of the multi-view learning approach and present a Variational EM inference procedure. We demonstrate superior performance on both synthetic data and real genomic data with subtypes of peripheral blood cells compared to other methods.
Cite
@article{arxiv.1902.08138,
title = {A Nonparametric Multi-view Model for Estimating Cell Type-Specific Gene Regulatory Networks},
author = {Cassandra Burdziak and Elham Azizi and Sandhya Prabhakaran and Dana Pe'er},
journal= {arXiv preprint arXiv:1902.08138},
year = {2019}
}