Integrative annotation of chromatin elements from ENCODE data
University of Washington · University of California, Los Angeles · +5 more institutions
Abstract
The ENCODE Project has generated a wealth of experimental information mapping diverse chromatin properties in several human cell lines. Although each such data track is independently informative toward the annotation of regulatory elements, their interrelations contain much richer information for the systematic annotation of regulatory elements. To uncover these interrelations and to generate an interpretable summary of the massive datasets of the ENCODE Project, we apply unsupervised learning methodologies, converting dozens of chromatin datasets into discrete annotation maps of regulatory regions and other chromatin elements across the human genome. These methods rediscover and summarize diverse aspects of…
Citation impact
- FWCI
- 18.41
- Percentile
- 100%
- References
- 57
Authors
14- MMMichael M. HoffmanCorresponding
University of Washington
- JEJason Ernst
University of California, Los Angeles, Massachusetts Institute of Technology, Broad Institute
- SPSteven P. Wilder
European Bioinformatics Institute
- AKAnshul Kundaje
Stanford University, Massachusetts Institute of Technology
- RSRobert S. Harris
Pennsylvania State University
Topics & keywords
- ENCODE
- Chromatin
- Biology
- Annotation
- Computational biology
- Genome
- ChIA-PET
- Human genome