NONPARAMETRIC BAYESIAN LEARNING OF HETEROGENEOUS DYNAMIC TRANSCRIPTION FACTOR NETWORKS
成果类型:
Article
署名作者:
Luo, Xiangyu; Wei, Yingying
署名单位:
Chinese University of Hong Kong; Chinese University of Hong Kong
刊物名称:
ANNALS OF APPLIED STATISTICS
ISSN/ISSBN:
1932-6157
DOI:
10.1214/17-AOAS1129
发表日期:
2018
页码:
1749-1772
关键词:
inverse covariance estimation
selective gene-expression
Gaussian graphical models
nf-kappa-b
variable selection
protein
distributions
encyclopedia
FRAMEWORK
inference
摘要:
Gene expression is largely controlled by transcription factors (TFs) in a collaborative manner. Therefore, an understanding of TF collaboration is crucial for the elucidation of gene regulation. The co-activation of TFs can be represented by networks. These networks are dynamic in diverse biological conditions and heterogeneous across the genome within each biological condition. Existing methods for construction of TF networks lack solid statistical models, analyze each biological condition separately, and enforce a single network for all genomic locations within one biological condition, resulting in low statistical power and misleading spurious associations. In this paper, we present a novel Bayesian nonparametric dynamic Poisson graphical model for inference on TF networks. Our approach automatically teases out genome heterogeneity and borrows information across conditions to improve signal detection from very few replicates, thus offering a valid and efficient measure of TF co-activations. We develop an efficient parallel Markov chain Monte Carlo algorithm for posterior computation. The proposed approach is applied to study TF associations in ENCODE cell lines and provides novel findings.
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