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ABSTRACT: Summary
Identification of functional transcription factors that regulate a given gene set is an important problem in gene regulation studies. Conventional approaches for identifying transcription factors, such as DNA sequence motif analysis, are unable to predict functional binding of specific factors and not sensitive enough to detect factors binding at distal enhancers. Here, we present binding analysis for regulation of transcription (BART), a novel computational method and software package for predicting functional transcription factors that regulate a query gene set or associate with a query genomic profile, based on more than 6000 existing ChIP-seq datasets for over 400 factors in human or mouse. This method demonstrates the advantage of utilizing publicly available data for functional genomics research.Availability and implementation
BART is implemented in Python and available at http://faculty.virginia.edu/zanglab/bart.Supplementary information
Supplementary data are available at Bioinformatics online.
SUBMITTER: Wang Z
PROVIDER: S-EPMC6084568 | biostudies-literature | 2018 Aug
REPOSITORIES: biostudies-literature
Wang Zhenjia Z Civelek Mete M Miller Clint L CL Sheffield Nathan C NC Guertin Michael J MJ Zang Chongzhi C
Bioinformatics (Oxford, England) 20180801 16
<h4>Summary</h4>Identification of functional transcription factors that regulate a given gene set is an important problem in gene regulation studies. Conventional approaches for identifying transcription factors, such as DNA sequence motif analysis, are unable to predict functional binding of specific factors and not sensitive enough to detect factors binding at distal enhancers. Here, we present binding analysis for regulation of transcription (BART), a novel computational method and software p ...[more]