Network models of chromatin structure

被引:11
作者
Pancaldi, Vera [1 ]
机构
[1] Univ Toulouse, Univ Toulouse III Paul Sabatier, Ctr Rech Cancerol Toulouse, CRCT,Inserm,CNRS, Toulouse, France
来源
CURRENT OPINION IN GENETICS & DEVELOPMENT | 2023年 / 80卷
关键词
LONG-RANGE INTERACTIONS; 3D GENOME; FUNCTIONAL-ORGANIZATION; PRINCIPLES; CONTACTS;
D O I
10.1016/j.gde.2023.102051
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
Increasing numbers of datasets and experimental assays that capture the organization of chromatin inside the nucleus warrant an effort to develop tools to visualize and analyze these structures. Alongside polymer physics or constraint-based modeling, network theory approaches to describe 3D epigenome organization have gained in popularity. Representing genomic regions as nodes in a network enables visualization of 1D epigenomics datasets in the context of chromatin structure maps, while network theory metrics can be used to describe 3D epigenome organization and dynamics. In this review, we summarize the most salient applications of network theory to the study of chromatin contact maps, demonstrating its potential in revealing epigenomic patterns and relating them to cellular phenotypes.
引用
收藏
页数:9
相关论文
共 50 条
[41]   Leveraging chromatin accessibility for transcriptional regulatory network inference in T Helper 17 Cells [J].
Miraldi, Emily R. ;
Pokrovskii, Maria ;
Watters, Aaron ;
Castro, Dayanne M. ;
De Veaux, Nicholas ;
Hall, Jason A. ;
Lee, June-Yong ;
Ciofani, Maria ;
Madar, Aviv ;
Carriero, Nick ;
Littman, Dan R. ;
Bonneau, Richard .
GENOME RESEARCH, 2019, 29 (03) :449-463
[42]   Chromatin Hubs: A biological and computational outlook [J].
Mora, Antonio ;
Huang, Xiaowei ;
Jauhari, Shaurya ;
Jiang, Qin ;
Li, Xuri .
COMPUTATIONAL AND STRUCTURAL BIOTECHNOLOGY JOURNAL, 2022, 20 :3796-3813
[43]   Embryogenic remodeling of global chromatin and its role on structure of corresponding lattice representation [J].
Gunji, Yukio-Pegio ;
Balaz, Igor .
BIOSYSTEMS, 2018, 173 :273-280
[44]   Chromatin structure dynamics during the mitosis-to-G1 phase transition [J].
Zhang, Haoyue ;
Emerson, Daniel J. ;
Gilgenast, Thomas G. ;
Titus, Katelyn R. ;
Lan, Yemin ;
Huang, Peng ;
Zhang, Di ;
Wang, Hongxin ;
Keller, Cheryl A. ;
Giardine, Belinda ;
Hardison, Ross C. ;
Phillips-Cremins, Jennifer E. ;
Blobel, Gerd A. .
NATURE, 2019, 576 (7785) :158-+
[45]   MarchantiaTCP transcription factor activity correlates with three-dimensional chromatin structure [J].
Karaaslan, Ezgi Suheyla ;
Wang, Nan ;
Faiss, Natalie ;
Liang, Yuyu ;
Montgomery, Sean A. ;
Laubinger, Sascha ;
Berendzen, Kenneth Wayne ;
Berger, Frederic ;
Breuninger, Holger ;
Liu, Chang .
NATURE PLANTS, 2020, 6 (10) :1250-+
[46]   Estrogen Induces Global Reorganization of Chromatin Structure in Human Breast Cancer Cells [J].
Mourad, Raphael ;
Hsu, Pei-Yin ;
Juan, Liran ;
Shen, Changyu ;
Koneru, Prasad ;
Lin, Hai ;
Liu, Yunlong ;
Nephew, Kenneth ;
Huang, Tim H. ;
Li, Lang .
PLOS ONE, 2014, 9 (12)
[47]   Chromatin Loop Extrusion and Chromatin Unknotting [J].
Racko, Dusan ;
Benedetti, Fabrizio ;
Goundaroulis, Dimos ;
Stasiak, Andrzej .
POLYMERS, 2018, 10 (10)
[48]   HiCAR: Analysis of Open Chromatin Associated Long-range Chromatin Interaction Using Low-Input Materials [J].
Wei, Xiaolin ;
Tran, Duc ;
Diao, Yarui .
CURRENT PROTOCOLS, 2023, 3 (10)
[49]   Chromatin compartmentalization regulates the response to DNA damage [J].
Arnould, Coline ;
Rocher, Vincent ;
Saur, Florian ;
Bader, Aldo S. ;
Muzzopappa, Fernando ;
Collins, Sarah ;
Lesage, Emma ;
Le Bozec, Benjamin ;
Puget, Nadine ;
Clouaire, Thomas ;
Mangeat, Thomas ;
Mourad, Raphael ;
Ahituv, Nadav ;
Noordermeer, Daan ;
Erdel, Fabian ;
Bushell, Martin ;
Marnef, Aline ;
Legube, Gaelle .
NATURE, 2023, 623 (7985) :183-+
[50]   Learning representations of chromatin contacts using a recurrent neural network identifies genomic drivers of conformation [J].
Dsouza, Kevin B. ;
Maslova, Alexandra ;
Al-Jibury, Ediem ;
Merkenschlager, Matthias ;
Bhargava, Vijay K. ;
Libbrecht, Maxwell W. .
NATURE COMMUNICATIONS, 2022, 13 (01)
12345