3D genome organization contributes to genome instability at fragile sites

Common fragile sites are regions susceptible to replication stress and are prone to chromosomal instability. Here, the authors, by analyzing the contribution of 3D chromatin organization, identify and characterize a fragility signature and precisely map these fragility regions.

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Bibliographic Details
Main Authors:	Dan Sarni, Takayo Sasaki, Michal Irony Tur-Sinai, Karin Miron, Juan Carlos Rivera-Mulia, Brian Magnuson, Mats Ljungman, David M. Gilbert, Batsheva Kerem
Format:	article
Language:	EN
Published:	Nature Portfolio 2020
Subjects:	Science Q
Online Access:	https://doaj.org/article/9f8f6dfda64441a5ae8eee34d19b3fb8
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Description
Summary:	Common fragile sites are regions susceptible to replication stress and are prone to chromosomal instability. Here, the authors, by analyzing the contribution of 3D chromatin organization, identify and characterize a fragility signature and precisely map these fragility regions.

3D genome organization contributes to genome instability at fragile sites

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