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Series GSE128014 Query DataSets for GSE128014
Status Public on May 16, 2019
Title DamC reveals principles of chromatin folding in vivo without crosslinking and ligation [4C]
Organism Mus musculus
Experiment type Other
Summary Mammalian chromosomes are folded into an intricate hierarchy of structural domains, within which topologically associating domains (TADs) and CTCF-associated loops partition the physical interactions between regulatory sequences. Current understanding of chromosome folding largely relies on chromosome conformation capture (3C)-based experiments, where chromosomal interactions are detected as ligation products after crosslinking of chromatin. To measure chromosome structure in vivo, quantitatively and without relying on crosslinking and ligation, we have implemented a new method named damC. DamC combines DNA-methylation based detection of chromosomal interactions with next-generation sequencing and a biophysical model of methylation kinetics. DamC performed in mouse embryonic stem cells provides the first in vivo validation of the existence of TADs and CTCF loops, confirms 3C-based measurements of the scaling of contact probabilities within TADs, and provides evidence that mammalian chromatin in vivo is essentially rigid below 5 kilobases. Combining damC with transposon-mediated genomic engineering shows that new loops can be formed between ectopically introduced and endogenous CTCF sites, which alters the partitioning of physical interactions within TADs. This establishes damC as a crosslinking- and ligation-free framework to measure and modify chromosome interactions combined with a solid theoretical background for rigorous data interpretation. This orthogonal approach to 3C validates the existence of key structural features of mammalian chromosomes and provides novel insights into how chromosome structure within TADs can be manipulated.
 
Overall design 4C-seq was performed on a range of viewpoints in embryonic stem cells carrying TetO arrays at diverse chromosomal integrations. In order to determine the chromosome structure at the TetO arrays, a single viewpoint (VP1) was designed on top of the TetO sequence allowing the identification of chromosomal interactions from every integrated platform. The other viewpoints, CTCF and reverse CTCF (VP21 and VP22; respectively) were designed on the mouse genome.

Please note that the processed data generated from both replicates is linked to the corresponding 'replicate 1' sample records as indicated in the REAME.txt.
 
Contributor(s) Redolfi J, Zhan Y, Valdes C, Kryzhanovska M, Guerreiro IM, Iesmantavicius V, Tiana G, Kind J, Smallwood S, de Laat W, Giorgetti L
Citation(s) 31133702
Submission date Mar 07, 2019
Last update date Jun 01, 2024
Contact name Luca Giorgetti
Organization name Friedrich Miescher Institute for Biomedical Research
Street address Fabrikstrasse 24
City Basel
ZIP/Postal code 4056
Country Switzerland
 
Platforms (1)
GPL19057 Illumina NextSeq 500 (Mus musculus)
Samples (10)
GSM3660451 4C_2.7kb_clone_replicate1
GSM3660452 4C_2.7kb_clone_replicate2
GSM3660453 4C_3CTCF_clone_replicate1
This SubSeries is part of SuperSeries:
GSE128017 DamC reveals principles of chromatin folding in vivo without crosslinking and ligation
Relations
BioProject PRJNA526055
SRA SRP187886

Download family Format
SOFT formatted family file(s) SOFTHelp
MINiML formatted family file(s) MINiMLHelp
Series Matrix File(s) TXTHelp

Supplementary file Size Download File type/resource
GSE128014_RAW.tar 293.7 Mb (http)(custom) TAR (of TXT)
GSE128014_README.txt 876 b (ftp)(http) TXT
SRA Run SelectorHelp
Raw data are available in SRA
Processed data provided as supplementary file

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