Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | Other | HIC | ||||||
GSE63525 |
A three-dimensional map of the human genome at kilobase resolution reveals prinicples of chromatin looping
|
|
200 |
|
Suhas Rao | Dec 11, 2014 | ||
GSE71831 |
Deletion of DXZ4 on the human inactive X chromosome eliminates superdomains and impairs gene silencing
|
101 |
|
Miriam Huntley | Jul 19, 2016 | |||
GSE80701 |
Distinct Enhancer Classes in Drosophila Bind Different Architectural Proteins and Mediate Unique Chromatin Interactions and 3D Architecture [Hi-C]
|
|
6 |
|
Victor G Corces | Nov 16, 2016 | ||
GSE80820 |
HiChIP: Efficient and sensitive analysis of protein-directed genome architecture
|
|
18 |
|
Ryan Alexander Flynn | Aug 31, 2016 | ||
GSE82144 |
Myc regulates chromatin decompaction and nuclear architecture during B cell activation
|
258 |
|
Seolkyoung Jung | Aug 10, 2017 | |||
GSE89112 |
Sub-kilobase resolution Kc167 cell Hi-C
|
|
2 |
|
Kyle Eagen | Jan 11, 2017 | ||
GSE89244 |
Evolutionary Principles Predict 3D Chromatin Organization
|
18 |
|
M Jordan Rowley | Aug 14, 2017 | |||
GSE92793 |
Hi-C from A549 (ENCSR244BBG)
|
|
7 | ENCODE DCC | Jan 10, 2017 | |||
GSE92804 |
Hi-C from A549 (ENCSR393LOP)
|
|
8 | ENCODE DCC | Jan 10, 2017 | |||
GSE92811 |
Hi-C from A549 (ENCSR499RVD)
|
|
8 | ENCODE DCC | Jan 10, 2017 | |||
GSE92819 |
Hi-C from A549 (ENCSR662QKG)
|
|
8 | ENCODE DCC | Jan 10, 2017 | |||
GSE92825 |
Hi-C from A549 (ENCSR757IVO)
|
|
8 | ENCODE DCC | Jan 10, 2017 | |||
GSE94452 |
Promoter-proximal CTCF binding promotes distal enhancer-dependent gene activation
|
174 | Bing Ren | May 01, 2018 | ||||
GSE95112 |
The nuclear matrix associating protein HNRNPU functions as a key regulator of 3D genome architecture [Hi-C]
|
|
4 |
|
Bo Wen | Dec 03, 2017 | ||
GSE95116 |
The nuclear matrix associating protein HNRNPU functions as a key regulator of 3D genome architecture
|
28 | Bo Wen | Dec 03, 2017 | ||||
GSE96692 |
Loss of CTCF reveals basic properties of post-mitotic epigenomes and induces heart failure [HiC-seq]
|
|
3 |
|
Tom Vondriska | Aug 30, 2017 | ||
GSE96693 |
Loss of CTCF reveals basic properties of post-mitotic epigenomes and induces heart failure
|
17 |
|
Tom Vondriska | Aug 30, 2017 | |||
GSE98119 |
The energetics and physiological impact of cohesin extrusion
|
352 | Seolkyoung Jung | May 01, 2018 | ||||
GSE98552 |
Chromatin structure and CTCF across the MCF10 breast cancer progression series (HiC)
|
|
4 | Jonathan AR Gordon | May 23, 2017 | |||
GSE102884 |
Topologically associating domains and chromatin loops depend on cohesin and are regulated by CTCF, WAPL and PDS5 proteins
|
30 |
|
Roman R Stocsits | Dec 07, 2017 |