Identification of cis elements for spatio-temporal control of DNA replication

Jiao Sima; Abhijit Chakraborty; Vishnu Dileep; Marco Michalski; Juan Carlos Rivera-Mulia; Claudia Trevilla-Garcia; Kyle N Klein; Daniel Bartlett; Brian K Washburn; Michelle T Paulsen; Daniel Vera; Elphège P Nora; Katerina Kraft; Stefan Mundlos; Benoit G Bruneau; Mats Ljungman; Peter Fraser; Ferhat Ay; David M Gilbert

doi:10.1101/285650

Identification of cis elements for spatio-temporal control of DNA replication

Jiao Sima, Abhijit Chakraborty, Vishnu Dileep, Marco Michalski, Juan Carlos Rivera-Mulia, Claudia Trevilla-Garcia, Kyle N Klein, Daniel Bartlett, Brian K Washburn, Michelle T Paulsen, Daniel Vera, Elphège P Nora, Katerina Kraft, Stefan Mundlos, Benoit G Bruneau, Mats Ljungman, Peter Fraser, Ferhat Ay, David M Gilbert

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Abstract

The temporal order of DNA replication (replication timing, RT) is highly coupled with genome architecture, but cis -elements regulating spatio-temporal control of replication have remained elusive. We performed an extensive series of CRISPR mediated deletions and inversions and high-resolution capture Hi-C of a pluripotency associated domain (DppA2/4) in mouse embryonic stem cells. Whereas CTCF mediated loops and chromatin domain boundaries were dispensable, deletion of three intra-domain prominent CTCF-independent 3D contact sites caused a domain-wide early to late switch in RT, shift in sub-nuclear chromatin compartment and loss of transcriptional activity, These early replication control elements (ERCEs) display prominent chromatin features resembling enhancers/promoters and individual and pair-wise deletions of the ERCEs confirmed their partial redundancy and interdependency in controlling domain-wide RT and transcription. Our results demonstrate that discrete cis -regulatory elements mediate domain-wide RT, chromatin compartmentalization, and transcription, representing a major advance in dissecting the relationship between genome structure and function.

Original language	English (US)
Pages (from-to)	285650
Number of pages	1
Journal	bioRxiv
DOIs	https://doi.org/10.1101/285650
State	Published - 2018

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Sima, J., Chakraborty, A., Dileep, V., Michalski, M., Rivera-Mulia, J. C., Trevilla-Garcia, C., Klein, K. N., Bartlett, D., Washburn, B. K., Paulsen, M. T., Vera, D., Nora, E. P., Kraft, K., Mundlos, S., Bruneau, B. G., Ljungman, M., Fraser, P., Ay, F., & Gilbert, D. M. (2018). Identification of cis elements for spatio-temporal control of DNA replication. bioRxiv, 285650. https://doi.org/10.1101/285650

Sima, J, Chakraborty, A, Dileep, V, Michalski, M, Rivera-Mulia, JC, Trevilla-Garcia, C, Klein, KN, Bartlett, D, Washburn, BK, Paulsen, MT, Vera, D, Nora, EP, Kraft, K, Mundlos, S, Bruneau, BG, Ljungman, M, Fraser, P, Ay, F & Gilbert, DM 2018, 'Identification of cis elements for spatio-temporal control of DNA replication', bioRxiv, pp. 285650. https://doi.org/10.1101/285650

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title = "Identification of cis elements for spatio-temporal control of DNA replication",

abstract = "The temporal order of DNA replication (replication timing, RT) is highly coupled with genome architecture, but cis -elements regulating spatio-temporal control of replication have remained elusive. We performed an extensive series of CRISPR mediated deletions and inversions and high-resolution capture Hi-C of a pluripotency associated domain (DppA2/4) in mouse embryonic stem cells. Whereas CTCF mediated loops and chromatin domain boundaries were dispensable, deletion of three intra-domain prominent CTCF-independent 3D contact sites caused a domain-wide early to late switch in RT, shift in sub-nuclear chromatin compartment and loss of transcriptional activity, These early replication control elements (ERCEs) display prominent chromatin features resembling enhancers/promoters and individual and pair-wise deletions of the ERCEs confirmed their partial redundancy and interdependency in controlling domain-wide RT and transcription. Our results demonstrate that discrete cis -regulatory elements mediate domain-wide RT, chromatin compartmentalization, and transcription, representing a major advance in dissecting the relationship between genome structure and function.",

author = "Jiao Sima and Abhijit Chakraborty and Vishnu Dileep and Marco Michalski and Rivera-Mulia, {Juan Carlos} and Claudia Trevilla-Garcia and Klein, {Kyle N} and Daniel Bartlett and Washburn, {Brian K} and Paulsen, {Michelle T} and Daniel Vera and Nora, {Elph{\`e}ge P} and Katerina Kraft and Stefan Mundlos and Bruneau, {Benoit G} and Mats Ljungman and Peter Fraser and Ferhat Ay and Gilbert, {David M}",

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doi = "10.1101/285650",

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T1 - Identification of cis elements for spatio-temporal control of DNA replication

AU - Sima, Jiao

AU - Chakraborty, Abhijit

AU - Dileep, Vishnu

AU - Michalski, Marco

AU - Rivera-Mulia, Juan Carlos

AU - Trevilla-Garcia, Claudia

AU - Klein, Kyle N

AU - Bartlett, Daniel

AU - Washburn, Brian K

AU - Paulsen, Michelle T

AU - Vera, Daniel

AU - Nora, Elphège P

AU - Kraft, Katerina

AU - Mundlos, Stefan

AU - Bruneau, Benoit G

AU - Ljungman, Mats

AU - Fraser, Peter

AU - Ay, Ferhat

AU - Gilbert, David M

PY - 2018

Y1 - 2018

N2 - The temporal order of DNA replication (replication timing, RT) is highly coupled with genome architecture, but cis -elements regulating spatio-temporal control of replication have remained elusive. We performed an extensive series of CRISPR mediated deletions and inversions and high-resolution capture Hi-C of a pluripotency associated domain (DppA2/4) in mouse embryonic stem cells. Whereas CTCF mediated loops and chromatin domain boundaries were dispensable, deletion of three intra-domain prominent CTCF-independent 3D contact sites caused a domain-wide early to late switch in RT, shift in sub-nuclear chromatin compartment and loss of transcriptional activity, These early replication control elements (ERCEs) display prominent chromatin features resembling enhancers/promoters and individual and pair-wise deletions of the ERCEs confirmed their partial redundancy and interdependency in controlling domain-wide RT and transcription. Our results demonstrate that discrete cis -regulatory elements mediate domain-wide RT, chromatin compartmentalization, and transcription, representing a major advance in dissecting the relationship between genome structure and function.

AB - The temporal order of DNA replication (replication timing, RT) is highly coupled with genome architecture, but cis -elements regulating spatio-temporal control of replication have remained elusive. We performed an extensive series of CRISPR mediated deletions and inversions and high-resolution capture Hi-C of a pluripotency associated domain (DppA2/4) in mouse embryonic stem cells. Whereas CTCF mediated loops and chromatin domain boundaries were dispensable, deletion of three intra-domain prominent CTCF-independent 3D contact sites caused a domain-wide early to late switch in RT, shift in sub-nuclear chromatin compartment and loss of transcriptional activity, These early replication control elements (ERCEs) display prominent chromatin features resembling enhancers/promoters and individual and pair-wise deletions of the ERCEs confirmed their partial redundancy and interdependency in controlling domain-wide RT and transcription. Our results demonstrate that discrete cis -regulatory elements mediate domain-wide RT, chromatin compartmentalization, and transcription, representing a major advance in dissecting the relationship between genome structure and function.

U2 - 10.1101/285650

DO - 10.1101/285650

M3 - Article

SP - 285650

JO - bioRxiv

JF - bioRxiv

ER -

Identification of cis elements for spatio-temporal control of DNA replication

Abstract

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