Understanding the organization and function of transcriptional regulatory networks by analyzing high-throughput gene expression profiles is a key problem in computational biology. The challenges in this work are 1) the lack of complete knowledge of the regulatory relationship between the regulators and the associated genes, 2) the potential for spurious associations due to confounding factors, and 3) the number of parameters to learn is usually larger than the number of available microarray experiments. We present a sparse (L1 regularized) graphical model to address these challenges. Our model incorporates known transcription factors and introduces hidden variables to represent possible unknown transcription and confounding factors. The exp...
Inferring the combinatorial regulatory code of transcription factors (TFs) from genome-wide TF bindi...
Background: Transcriptional regulation is an important part of regulatory control in eukaryotes. Eve...
Identifying gene regulatory networks (GRNs) which consist of a large number of interacting units has...
Understanding the organization and function of transcriptional regulatory networks by analyzing high...
Understanding the organization and function of transcriptional regulatory networks by analyzing high...
Gene expression is a readily-observed quantification of transcriptional activity and cellular state ...
Transcriptional regulation is one of the most important means of gene regulation. Uncovering transcr...
Motivation: Many modeling frameworks have been applied to infer regulatory networks from gene expres...
Motivation: Genetic networks regulate key processes in living cells. Various methods have been sugge...
Background: Transcriptional gene regulation is one of the most important mechanisms in controlling m...
Two-level gene regulatory networks consist of the transcription factors (TFs) in the top level and t...
Abstract Background To understand the molecular mecha...
UnrestrictedUnderstanding the gene regulatory network has always been one of the important and chall...
Motivation: Inferring the relationships between transcription factors (TFs) and their targets has ut...
Transcriptional regulatory networks specify the interactions among regulatory genes and between regu...
Inferring the combinatorial regulatory code of transcription factors (TFs) from genome-wide TF bindi...
Background: Transcriptional regulation is an important part of regulatory control in eukaryotes. Eve...
Identifying gene regulatory networks (GRNs) which consist of a large number of interacting units has...
Understanding the organization and function of transcriptional regulatory networks by analyzing high...
Understanding the organization and function of transcriptional regulatory networks by analyzing high...
Gene expression is a readily-observed quantification of transcriptional activity and cellular state ...
Transcriptional regulation is one of the most important means of gene regulation. Uncovering transcr...
Motivation: Many modeling frameworks have been applied to infer regulatory networks from gene expres...
Motivation: Genetic networks regulate key processes in living cells. Various methods have been sugge...
Background: Transcriptional gene regulation is one of the most important mechanisms in controlling m...
Two-level gene regulatory networks consist of the transcription factors (TFs) in the top level and t...
Abstract Background To understand the molecular mecha...
UnrestrictedUnderstanding the gene regulatory network has always been one of the important and chall...
Motivation: Inferring the relationships between transcription factors (TFs) and their targets has ut...
Transcriptional regulatory networks specify the interactions among regulatory genes and between regu...
Inferring the combinatorial regulatory code of transcription factors (TFs) from genome-wide TF bindi...
Background: Transcriptional regulation is an important part of regulatory control in eukaryotes. Eve...
Identifying gene regulatory networks (GRNs) which consist of a large number of interacting units has...