Add to ORKGAbstract We present an integrated method called Chromia for the genome-wide identification of functional target loci of transcription factors. Designed to capture the characteristic patterns of transcription factor binding motif occurrences and the histone profiles associated with regulatory elements such as promoters and enhancers, Chromia significantly outperforms other methods in the identification of 13 transcription factor binding sites in mouse embryonic stem cells, evaluated by both binding (ChIP-seq) and functional (RNA interference knockdown) experiments
Systematic chromatin immunoprecipitation (chIP-chip) experiments have become a central technique for...
The identification of cis-acting elements on DNA is crucial for the understanding of the complex reg...
Background: Revealing protein-DNA interactions is a key problem in understanding transcriptional reg...
Abstract Objectives Mammalian genomics studies, especially those focusing on transcriptional regulat...
Abstract Background Computational prediction of transcription factor (TF) binding sites in different...
In silico prediction of transcription factor binding sites (TFBSs) is central to the task of gene re...
Background—The computational identification of functional transcription factor binding sites (TFBSs)...
Background: Understanding the mechanisms by which transcription factors (TF) are recruited to their ...
The key to the complexity of higher organisms lies not in the number of protein coding genes they ca...
BACKGROUND:How transcription factors (TFs) interact with cis-regulatory sequences and interact with ...
Motivation: Modelling the regulation of gene expression can provide insight into the regulatory role...
Motif discovery has been one of the most widely studied problems in bioinformatics ever since genomi...
The study of developmentally regulated transcription factors by chromatin immunoprecipitation and de...
Identifying transcriptional regulatory elements represents a significant challenge in annotating the...
Abstract Background Transcription factors function by binding different classes of regulatory elemen...
Systematic chromatin immunoprecipitation (chIP-chip) experiments have become a central technique for...
The identification of cis-acting elements on DNA is crucial for the understanding of the complex reg...
Background: Revealing protein-DNA interactions is a key problem in understanding transcriptional reg...
Abstract Objectives Mammalian genomics studies, especially those focusing on transcriptional regulat...
Abstract Background Computational prediction of transcription factor (TF) binding sites in different...
In silico prediction of transcription factor binding sites (TFBSs) is central to the task of gene re...
Background—The computational identification of functional transcription factor binding sites (TFBSs)...
Background: Understanding the mechanisms by which transcription factors (TF) are recruited to their ...
The key to the complexity of higher organisms lies not in the number of protein coding genes they ca...
BACKGROUND:How transcription factors (TFs) interact with cis-regulatory sequences and interact with ...
Motivation: Modelling the regulation of gene expression can provide insight into the regulatory role...
Motif discovery has been one of the most widely studied problems in bioinformatics ever since genomi...
The study of developmentally regulated transcription factors by chromatin immunoprecipitation and de...
Identifying transcriptional regulatory elements represents a significant challenge in annotating the...
Abstract Background Transcription factors function by binding different classes of regulatory elemen...
Systematic chromatin immunoprecipitation (chIP-chip) experiments have become a central technique for...
The identification of cis-acting elements on DNA is crucial for the understanding of the complex reg...
Background: Revealing protein-DNA interactions is a key problem in understanding transcriptional reg...