Description
This track displays representative ChIP-seq peaks (rPeaks) and detected DNA motif
sites for regulatory regions in the human genome, identified using ENCODE ChIP-seq data
across all phases of the project. The regions are bound by DNA-associated proteins
involved in transcriptional regulation, including RNA polymerase, transcription factors
(TFs), and chromatin remodeling proteins. Sequence-specific TFs bind directly to short
DNA motifs via their DNA-binding domains, while other proteins associate indirectly
through interactions with sequence-specific TFs. Chromatin immunoprecipitation followed
by sequencing (ChIP-seq) is a high-throughput method used to map genome-wide protein-DNA
interactions. Regions with high ChIP-seq signal (peaks) frequently contain binding sites
for the assayed protein. For each DNA-associated protein, ChIP-seq peaks from all ENCODE
biosamples were integrated to define a set of representative peaks (rPeaks).
For detailed information on individual factors and their motifs, see
Factorbook.org.
Display Conventions and Configuration
Each rPeak is colored in grayscale by maximum ChIP-seq signal across contributing
biosamples (darker = higher signal, score 0 to 1,000):
| Color |
Score |
|
1000 (highest signal) |
|
750 |
|
500 |
|
250 |
|
1 (lowest signal) |
Low-scoring peaks appear in very light gray by default; the
Shade of lowest-scoring items setting can darken them for easier visibility.
Note: Increasing the shade reduces the visible contrast between low and
high scoring peaks.
If the rPeak overlaps a cognate TF motif site from the collection in Andrews
et al., 2023, the motif site is colored green using decorators.
Clicking on an rPeak provides detailed information about the biosamples where the
rPeak was detected, including the count of biosamples with contributing ChIP-seq peaks,
the total number of biosamples assayed for the protein, and a per-biosample table
listing each contributing experiment with its ENCODE accession. The protein name links
to Factorbook, and overlapping
ENCODE candidate cis-regulatory elements (cCREs) link to
SCREEN.
By default, rPeaks for all 912 DNA-associated proteins with ENCODE ChIP-seq data are
displayed. A filter is available to select specific proteins.
Methods
2,509 ENCODE ChIP-seq experiments were integrated from 912 DNA-associated proteins across
1,152 unique biosamples to produce representative peaks (rPeaks) for each protein. The
processing steps were as follows:
- ChIP-seq peaks for each protein were downloaded from the
ENCODE Portal, generated using the
ENCODE
Transcription Factor ChIP-seq Processing Pipeline.
- Using bedtools merge, ChIP-seq peaks were clustered from the protein’s experiments
across all biosamples.
- In each cluster, the peak with the highest ChIP signal (normalized by sequencing depth)
was selected as the rPeak.
- All ChIP-seq peaks overlapping this rPeak by at least one nucleotide were marked as
represented and removed from subsequent clustering rounds.
- Steps 2-4 were repeated until a final list of non-overlapping rPeaks was generated,
representing all ChIP-seq peaks for the protein.
Data Access
The ENCODE 4 Regulation data on the UCSC Genome Browser can be explored interactively with the
Table Browser or the
Data Integrator.
For automated download and analysis, the genome annotation is stored in bigBed
files that can be downloaded from
our download server.
The data may also be explored interactively using our
REST API.
The original data files are also available from the
ENCODE portal.
These files may also be locally explored using our tool bigBedToBed,
which can be compiled from the source code or downloaded as a precompiled
binary for your system. Instructions for downloading source code and binaries can be found
here.
The tool can also be used to obtain features confined to a given range, e.g.,
bigBedToBed -chrom=chr1 -start=100000 -end=100500 https://hgdownload.soe.ucsc.edu/gbdb/hg38/encode4/regulation/tfRpeak/TFrPeakClusters.bb stdout
Credits
This track was made possible by the efforts of the ENCODE Consortium, ENCODE
ChIP-seq production laboratories, and the ENCODE Data Coordination Center for generating
and processing the ChIP-seq datasets. The ENCODE accession numbers for the constituent
datasets are accessible from the peak details page. The data were generated by the
following production labs: Drs. Bradley Bernstein (Broad),
John Stamatoyannopoulos (UW), Kevin Struhl (HMS), Kevin White (UChicago),
Michael Snyder (Stanford), Peggy Farnham (USC), Richard Myers (HAIB),
Sherman Weissman (Yale), Tim Reddy (Duke), Vishwanath Iyer (UTA),
and Xiang-Dong Fu (UCSD).
The data were further processed for visualization through a collaborative effort between
the Weng lab and the
Moore lab at UMass
Chan Medical School (funded by NIH grant HG012343). Special thanks to Drs. Mingshi Gao,
Greg Andrews, Jill Moore, and Zhiping Weng at UMass Chan Medical School, who were members
of the ENCODE Data Analysis Center, for developing this track, including providing the rPeak
and motif datasets and associated metadata and building the track.
References
Andrews G, Fan K, Pratt HE, Phalke N, Zoonomia Consortium, Karlsson EK, Lindblad-Toh K,
Weng Z.
Mammalian evolution of human cis-regulatory elements and transcription factor binding
sites.
Science. 2023;380(6643):eabn7930.
PMID: 37104580
ENCODE Project Consortium, Moore JE, Purcaro MJ, Pratt HE, Epstein CB, Shoresh N, Adrian J,
Kawli T, Davis CA, Dobin A et al.
Expanded encyclopaedias of DNA elements in the human and mouse genomes.
Nature. 2020 Jul;583(7818):699-710.
PMID: 32728249; PMC: PMC7410828
Moore JE, Pratt HE, Fan K, Phalke N, Fisher J, Elhajjajy SI, Andrews G, Gao M, Shedd N,
Fu Y et al.
An Expanded Registry of Candidate cis-Regulatory Elements for Studying Transcriptional
Regulation.
Nature. 2026 January 7.
PMID: 39763870; PMC: PMC11703161
Pratt HE, Andrews GR, Phalke N, Huey JD, Purcaro MJ, van der Velde A, Moore JE, Weng Z.
Factorbook: an updated catalog of transcription factor motifs and candidate regulatory
motif sites.
Nucleic Acids Research. 2022;50(D1):D141-D149.
PMID: 34747468