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ENCODE4 Regulation CTCF (Layered) Track Settings
 
CTCF binding signal from ChIP-seq, averaged by organ/tissue

Configure track container: Integrated Regulation from ENCODE 4

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+  All tracks in this collection (10)

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     Blood  Avg. CTCF level of 3 blood experiments (tissues and primary cells only)   Data format 
     Brain  Avg. CTCF level of 54 brain experiments (tissues and primary cells only)   Data format 
     Breast  Avg. CTCF level of 6 breast experiments (tissues and primary cells only)   Data format 
     Connective tissue  CTCF level of 1 connective tissue experiment (tissues and primary cells only)   Data format 
     Eye  CTCF level of 1 eye experiment (tissues and primary cells only)   Data format 
     Heart  Avg. CTCF level of 24 heart experiments (tissues and primary cells only)   Data format 
     Kidney  Avg. CTCF level of 3 kidney experiments (tissues and primary cells only)   Data format 
     Large intestine  Avg. CTCF level of 9 large intestine experiments (tissues and primary cells only)   Data format 
     Liver  Avg. CTCF level of 2 liver experiments (tissues and primary cells only)   Data format 
     Lung  Avg. CTCF level of 13 lung experiments (tissues and primary cells only)   Data format 
     Muscle  Avg. CTCF level of 14 muscle experiments (tissues and primary cells only)   Data format 
     Pancreas  Avg. CTCF level of 9 pancreas experiments (tissues and primary cells only)   Data format 
     Prostate  Avg. CTCF level of 3 prostate experiments (tissues and primary cells only)   Data format 
     Skin  Avg. CTCF level of 12 skin experiments (tissues and primary cells only)   Data format 
     Uterus  Avg. CTCF level of 2 uterus experiments (tissues and primary cells only)   Data format 
     Adipose (all biosamples)  Avg. CTCF level of 4 adipose experiments (all biosamples)   Data format 
     Adrenal gland (all biosamples)  Avg. CTCF level of 5 adrenal gland experiments (all biosamples)   Data format 
     Blood vessel (all biosamples)  Avg. CTCF level of 12 blood vessel experiments (all biosamples)   Data format 
     Esophagus (all biosamples)  Avg. CTCF level of 5 esophagus experiments (all biosamples)   Data format 
     Nerve (all biosamples)  Avg. CTCF level of 4 nerve experiments (all biosamples)   Data format 
     Ovary (all biosamples)  Avg. CTCF level of 2 ovary experiments (all biosamples)   Data format 
     Parathyroid gland (all biosamples)  Avg. CTCF level of 2 parathyroid gland experiments (all biosamples)   Data format 
     Placenta (all biosamples)  CTCF level of 1 placenta experiment (all biosamples)   Data format 
     Small intestine (all biosamples)  Avg. CTCF level of 4 small intestine experiments (all biosamples)   Data format 
     Spinal cord (all biosamples)  CTCF level of 1 spinal cord experiment (all biosamples)   Data format 
     Spleen (all biosamples)  Avg. CTCF level of 9 spleen experiments (all biosamples)   Data format 
     Stomach (all biosamples)  Avg. CTCF level of 4 stomach experiments (all biosamples)   Data format 
     Testis (all biosamples)  Avg. CTCF level of 2 testis experiments (all biosamples)   Data format 
     Thyroid (all biosamples)  Avg. CTCF level of 4 thyroid experiments (all biosamples)   Data format 
     Vagina (all biosamples)  Avg. CTCF level of 2 vagina experiments (all biosamples)   Data format 
     Blood (all biosamples)  Avg. CTCF level of 25 blood experiments (all biosamples)   Data format 
     Brain (all biosamples)  Avg. CTCF level of 69 brain experiments (all biosamples)   Data format 
     Breast (all biosamples)  Avg. CTCF level of 9 breast experiments (all biosamples)   Data format 
     Connective tissue (all biosamples)  Avg. CTCF level of 2 connective tissue experiments (all biosamples)   Data format 
     Eye (all biosamples)  Avg. CTCF level of 2 eye experiments (all biosamples)   Data format 
     Heart (all biosamples)  Avg. CTCF level of 25 heart experiments (all biosamples)   Data format 
     Kidney (all biosamples)  Avg. CTCF level of 8 kidney experiments (all biosamples)   Data format 
     Large intestine (all biosamples)  Avg. CTCF level of 11 large intestine experiments (all biosamples)   Data format 
     Liver (all biosamples)  Avg. CTCF level of 4 liver experiments (all biosamples)   Data format 
     Lung (all biosamples)  Avg. CTCF level of 20 lung experiments (all biosamples)   Data format 
     Muscle (all biosamples)  Avg. CTCF level of 18 muscle experiments (all biosamples)   Data format 
     Pancreas (all biosamples)  Avg. CTCF level of 12 pancreas experiments (all biosamples)   Data format 
     Prostate (all biosamples)  Avg. CTCF level of 14 prostate experiments (all biosamples)   Data format 
     Skin (all biosamples)  Avg. CTCF level of 18 skin experiments (all biosamples)   Data format 
     Uterus (all biosamples)  Avg. CTCF level of 5 uterus experiments (all biosamples)   Data format 
     Bone (all biosamples)  Avg. CTCF level of 2 bone experiments (all biosamples)   Data format 
     Bone marrow (all biosamples)  Avg. CTCF level of 4 bone marrow experiments (all biosamples)   Data format 
     Embryo (all biosamples)  Avg. CTCF level of 4 embryo experiments (all biosamples)   Data format 
     Epithelium (all biosamples)  CTCF level of 1 epithelium experiment (all biosamples)   Data format 
     Mouth (all biosamples)  CTCF level of 1 mouth experiment (all biosamples)   Data format 
     Penis (all biosamples)  Avg. CTCF level of 2 penis experiments (all biosamples)   Data format 
    
Assembly: Human Dec. 2013 (GRCh38/hg38)

Description

CTCF (CCCTC-binding factor) is a multifunctional DNA-binding protein involved in chromatin organization, transcriptional regulation, and insulation of regulatory elements. This track displays genome-wide CTCF binding signal, as determined by CTCF ChIP-seq data across all phases of the ENCODE project. CTCF plays a key role in establishing chromatin loops and boundary elements that influence gene expression and higher-order genome architecture. CTCF binding sites often occur at insulators and chromatin loop anchors, which help define topologically associating domains (TADs) and mediate enhancer-promoter interactions. The data are processed following the ENCODE transcription factor ChIP-seq pipeline. Additional transcription factor binding and chromatin accessibility datasets are available at the ENCODE portal.

For each organ, this track provides up to two subtracks averaging CTCF signal:

  • Tissue and Primary Cell averages only the tissue and primary cell experiments.
  • All Biosamples averages every experiment for that organ, including the tissue/primary cell ones plus any from cell lines, in vitro differentiated cells, or organoids.

Whether one or two subtracks appear for an organ depends on which kinds of biosamples have been assayed:

  • Tissue/primary cell only. There are no cell line, in vitro differentiated cell, or organoid experiments to include, so the two averages would be computed from the same data and produce identical numbers. Only the Tissue and Primary Cell subtrack is shown.
  • Cell line, in vitro differentiated cell, or organoid experiments only. There are no tissue or primary cell experiments to average, so only the All Biosamples subtrack is shown. In this case it represents those experiments.
  • Both kinds of biosamples available. The two averages give different numbers because one covers only the tissue and primary cell experiments while the other includes everything together. Both subtracks are shown.

Available Organs and Tissues

Organ/Tissue Tissue and Primary Cell Subtrack All Biosamples Subtrack
adipose
adrenal gland
blood
blood vessel
bone
bone marrow
brain
breast
connective tissue
embryo
epithelium
esophagus
eye
heart
kidney
large intestine
liver
lung
mouth
muscle
nerve
ovary
pancreas
parathyroid gland
penis
placenta
prostate
skin
small intestine
spinal cord
spleen
stomach
testis
thyroid
uterus
vagina

Display Conventions and Configuration

By default, this track uses a transparent overlay to visualize data from multiple organs or tissues within the same vertical space. For each organ or tissue, signals from all associated experiments were averaged to generate the displayed track. Each organ or tissue is assigned a distinct color following the ENCODE color mapping convention, selected to be light and saturated to maintain clarity when overlaid. Initially, each layered track displays an overlay of five representative organs: blood, brain, kidney, liver, and muscle. Clicking on the track opens a details page where you can view and select organs or tissues.

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 bigWig 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 bigWigToWig, 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 data confined to a given range, e.g.,

bigWigToWig -chrom=chr1 -start=100000 -end=100500 https://hgdownload.soe.ucsc.edu/gbdb/hg38/encode4/regulation/organAve/adiposeCTCF.bw stdout

Credits

Data were generated by the ENCODE Consortium. We thank the production labs for generating the data: Drs. Bradley Bernstein (Broad), John Stamatoyannopoulos (UW), Michael Snyder (Stanford), Richard Myers (HAIB), and Vishwanath Iyer (UTA). 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). Integration and visualization were developed by Drs. Mingshi Gao, Jill Moore, and Zhiping Weng at UMass Chan Medical School, who were part of the ENCODE Data Analysis Center.

References

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