Cell
Volume 169, Issue 4, 4 May 2017, Pages 693-707.e14
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Article
The Cohesin Release Factor WAPL Restricts Chromatin Loop Extension

https://doi.org/10.1016/j.cell.2017.04.013Get rights and content
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Highlights

  • Hi-C analysis demonstrates that chromatin loop size can be increased genome-wide

  • The duration with which cohesin embraces DNA determines the length of chromatin loops

  • Haploid genetics reveals that the SCC2/SCC4 complex promotes loop extension

  • Cohesin limits the compartmentalization of chromatin within the nucleus

Summary

The spatial organization of chromosomes influences many nuclear processes including gene expression. The cohesin complex shapes the 3D genome by looping together CTCF sites along chromosomes. We show here that chromatin loop size can be increased and that the duration with which cohesin embraces DNA determines the degree to which loops are enlarged. Cohesin’s DNA release factor WAPL restricts this loop extension and also prevents looping between incorrectly oriented CTCF sites. We reveal that the SCC2/SCC4 complex promotes the extension of chromatin loops and the formation of topologically associated domains (TADs). Our data support the model that cohesin structures chromosomes through the processive enlargement of loops and that TADs reflect polyclonal collections of loops in the making. Finally, we find that whereas cohesin promotes chromosomal looping, it rather limits nuclear compartmentalization. We conclude that the balanced activity of SCC2/SCC4 and WAPL enables cohesin to correctly structure chromosomes.

Keywords

cohesin
CTCF
WAPL
SCC2
NIPBL
SCC4
MAU2
chromatin looping
TADs
loop extrusion

Cited by (0)

6

These authors contributed equally

7

Present address: UMR_S951, Genethon, 91000 Evry, France

8

Lead Contact