Evolutionary comparison reveals that diverging CTCF sites are signatures of ancestral topological associating domains borders

Structural and functional diversity of Topologically Associating Domains

Dekker, Job
Heard, Edith

October 2015

AbstractRecent studies have shown that chromosomes in a range of organisms are compartmentalized in ...

Enhancer accessibility and CTCF occupancy underlie asymmetric TAD architecture and cell type specific genome topology

Barrington, C
Georgopoulou, D
Pezic, D
Varsally, W
Herrero, J
Hadjur, S

July 2019

Cohesin and CTCF are master regulators of genome topology. How these ubiquitous proteins contribute ...

Waves of Retrotransposon Expansion Remodel Genome Organization and CTCF Binding in Multiple Mammalian Lineages

Schmidt, Dominic
Schwalie, Petra C.
Wilson, Michael D.
Ballester, Benoit
Gonçalves, Ângela
Kutter, Claudia
Brown, Gordon D.
Marshall, Aileen
Flicek, Paul
Odom, Duncan T.

January 2012

SummaryCTCF-binding locations represent regulatory sequences that are highly constrained over the co...

Evolutionary comparison reveals that diverging CTCF sites are signatures of ancestral topological associating domains borders

Gómez-Marín, Carlos
Tena, Juan J.
Acemel, Rafael D.
López-Mayorga, Macarena
Naranjo, Silvia
de la Calle-Mustienes, Elisa
Maeso, Ignacio
Beccari, Leonardo
Aneas, Ivy
Vielmas, Erika
Bovolenta, Paola
Nobrega, Marcelo A.
Carvajal, Jaime
Gómez-Skarmeta, José Luis

June 2015

Increasing evidence in the last years indicates that the vast amount of regulatory information conta...

Evolution of 3D chromatin organization at different scales

Acemel, R.D.
Lupianez, D.G.

February 2023

Most animal genomes fold in 3D chromatin domains called topologically associated domains (TADs) that...

Topologically associated domains: a successful scaffold for the evolution of gene regulation in animals

Acemel, Rafael D.
Maeso, Ignacio
Gómez-Skarmeta, José Luis

April 2018

The evolution of gene regulation is considered one of the main drivers causing the astonishing morph...

Topologically Associating Domains and Regulatory Landscapes in Development, Evolution and Disease

Juan J. Tena
José M. Santos-Pereira

July 2021

Animal genomes are folded in topologically associating domains (TADs) that have been linked to the r...

CTCF-mediated topological boundaries during development foster appropriate gene regulation

Narendra, Varun
Bulajic, Milica
Dekker, Job
Mazzoni, Esteban O.
Reinberg, Danny

December 2016

The genome is organized into repeating topologically associated domains (TADs), each of which is spa...

In vivo dissection of a clustered-CTCF domain boundary reveals developmental principles of regulatory insulation

Anania, C.
Acemel, R.D.
Jedamzick, J.
Bolondi, A.
Cova, G.
Brieske, N.
Kuehn, R.
Wittler, L.
Real, F.M.
Lupianez, D.G.

April 2021

Vertebrate genomes organize into topologically associating domains (TADs), delimited by boundaries t...

Comparative Hi-C Reveals that CTCF Underlies Evolution of Chromosomal Domain Architecture

Vietri Rudan, Matteo
Barrington, Christopher
Henderson, Stephen
Ernst, Christina
Odom, Duncan T.
Tanay, Amos
Hadjur, Suzana

March 2015

SummaryTopological domains are key architectural building blocks of chromosomes, but their functiona...

Clustered CTCF binding is an evolutionary mechanism to maintain topologically associating domains.

Kentepozidou, Elissavet
Aitken, Sarah
Feig, Christine
Stefflova, Klara
Ibarra-Soria, Ximena
Odom, Duncan
Roller, Maša
Flicek, Paul

January 2020

BACKGROUND: CTCF binding contributes to the establishment of a higher-order genome structure by dema...

Breaking TADs: How Alterations of Chromatin Domains Result in Disease

Lupiáñez, D.
Spielmann, M.
Mundlos, S.

April 2016

Spatial organization is an inherent property of the vertebrate genome to accommodate the roughly 2m ...

Topologically associated domains are ancient features that coincide with Metazoan clusters of extreme noncoding conservation

Harmston, Nathan
Ing-Simmons, Elizabeth
Tan, Ge
Perry, Malcolm
Merkenschlager, Matthias
Lenhard, Boris

September 2017

Developmental genes in metazoan genomes are surrounded by dense clusters of conserved noncoding elem...

Reciprocal insulation analysis of Hi-C data shows that TADs represent a functionally but not structurally privileged scale in the hierarchical folding of chromosomes

Zhan, Y.
Mariani, L.
Barozzi, I.
Schulz, E.
Blüthgen, N.
Stadler, M.
Tiana, G.
Giorgetti, L.

March 2017

Understanding how regulatory sequences interact in the context of chromosomal architecture is a cent...

Chromatin architecture reorganisation during neuronal cell differentiation in Drosophila genome

Chathoth, Keerthi T
Zabet, Nicolae Radu

April 2019

The organization of the genome into topologically associating domains (TADs) was shown to have a reg...

Structural and functional diversity of Topologically Associating Domains

Dekker, Job
Heard, Edith

October 2015

AbstractRecent studies have shown that chromosomes in a range of organisms are compartmentalized in ...

Enhancer accessibility and CTCF occupancy underlie asymmetric TAD architecture and cell type specific genome topology

Barrington, C
Georgopoulou, D
Pezic, D
Varsally, W
Herrero, J
Hadjur, S

July 2019

Cohesin and CTCF are master regulators of genome topology. How these ubiquitous proteins contribute ...

Waves of Retrotransposon Expansion Remodel Genome Organization and CTCF Binding in Multiple Mammalian Lineages

Schmidt, Dominic
Schwalie, Petra C.
Wilson, Michael D.
Ballester, Benoit
Gonçalves, Ângela
Kutter, Claudia
Brown, Gordon D.
Marshall, Aileen
Flicek, Paul
Odom, Duncan T.

January 2012

SummaryCTCF-binding locations represent regulatory sequences that are highly constrained over the co...

Evolutionary comparison reveals that diverging CTCF sites are signatures of ancestral topological associating domains borders

Gómez-Marín, Carlos
Tena, Juan J.
Acemel, Rafael D.
López-Mayorga, Macarena
Naranjo, Silvia
de la Calle-Mustienes, Elisa
Maeso, Ignacio
Beccari, Leonardo
Aneas, Ivy
Vielmas, Erika
Bovolenta, Paola
Nobrega, Marcelo A.
Carvajal, Jaime
Gómez-Skarmeta, José Luis

June 2015

Increasing evidence in the last years indicates that the vast amount of regulatory information conta...

Evolution of 3D chromatin organization at different scales

Acemel, R.D.
Lupianez, D.G.

February 2023

Most animal genomes fold in 3D chromatin domains called topologically associated domains (TADs) that...

Topologically associated domains: a successful scaffold for the evolution of gene regulation in animals

Acemel, Rafael D.
Maeso, Ignacio
Gómez-Skarmeta, José Luis

April 2018

The evolution of gene regulation is considered one of the main drivers causing the astonishing morph...

Topologically Associating Domains and Regulatory Landscapes in Development, Evolution and Disease

Juan J. Tena
José M. Santos-Pereira

July 2021

Animal genomes are folded in topologically associating domains (TADs) that have been linked to the r...

CTCF-mediated topological boundaries during development foster appropriate gene regulation

Narendra, Varun
Bulajic, Milica
Dekker, Job
Mazzoni, Esteban O.
Reinberg, Danny

December 2016

The genome is organized into repeating topologically associated domains (TADs), each of which is spa...

In vivo dissection of a clustered-CTCF domain boundary reveals developmental principles of regulatory insulation

Anania, C.
Acemel, R.D.
Jedamzick, J.
Bolondi, A.
Cova, G.
Brieske, N.
Kuehn, R.
Wittler, L.
Real, F.M.
Lupianez, D.G.

April 2021

Vertebrate genomes organize into topologically associating domains (TADs), delimited by boundaries t...

Comparative Hi-C Reveals that CTCF Underlies Evolution of Chromosomal Domain Architecture

Vietri Rudan, Matteo
Barrington, Christopher
Henderson, Stephen
Ernst, Christina
Odom, Duncan T.
Tanay, Amos
Hadjur, Suzana

March 2015

SummaryTopological domains are key architectural building blocks of chromosomes, but their functiona...

Clustered CTCF binding is an evolutionary mechanism to maintain topologically associating domains.

Kentepozidou, Elissavet
Aitken, Sarah
Feig, Christine
Stefflova, Klara
Ibarra-Soria, Ximena
Odom, Duncan
Roller, Maša
Flicek, Paul

January 2020

BACKGROUND: CTCF binding contributes to the establishment of a higher-order genome structure by dema...

Breaking TADs: How Alterations of Chromatin Domains Result in Disease

Lupiáñez, D.
Spielmann, M.
Mundlos, S.

April 2016

Spatial organization is an inherent property of the vertebrate genome to accommodate the roughly 2m ...

Topologically associated domains are ancient features that coincide with Metazoan clusters of extreme noncoding conservation

Harmston, Nathan
Ing-Simmons, Elizabeth
Tan, Ge
Perry, Malcolm
Merkenschlager, Matthias
Lenhard, Boris

September 2017

Developmental genes in metazoan genomes are surrounded by dense clusters of conserved noncoding elem...

Reciprocal insulation analysis of Hi-C data shows that TADs represent a functionally but not structurally privileged scale in the hierarchical folding of chromosomes

Zhan, Y.
Mariani, L.
Barozzi, I.
Schulz, E.
Blüthgen, N.
Stadler, M.
Tiana, G.
Giorgetti, L.

March 2017

Understanding how regulatory sequences interact in the context of chromosomal architecture is a cent...

Chromatin architecture reorganisation during neuronal cell differentiation in Drosophila genome

Chathoth, Keerthi T
Zabet, Nicolae Radu

April 2019

The organization of the genome into topologically associating domains (TADs) was shown to have a reg...

Structural and functional diversity of Topologically Associating Domains

Dekker, Job
Heard, Edith

October 2015

AbstractRecent studies have shown that chromosomes in a range of organisms are compartmentalized in ...

Enhancer accessibility and CTCF occupancy underlie asymmetric TAD architecture and cell type specific genome topology

Barrington, C
Georgopoulou, D
Pezic, D
Varsally, W
Herrero, J
Hadjur, S

July 2019

Cohesin and CTCF are master regulators of genome topology. How these ubiquitous proteins contribute ...

Waves of Retrotransposon Expansion Remodel Genome Organization and CTCF Binding in Multiple Mammalian Lineages

Schmidt, Dominic
Schwalie, Petra C.
Wilson, Michael D.
Ballester, Benoit
Gonçalves, Ângela
Kutter, Claudia
Brown, Gordon D.
Marshall, Aileen
Flicek, Paul
Odom, Duncan T.

January 2012

SummaryCTCF-binding locations represent regulatory sequences that are highly constrained over the co...

Evolutionary comparison reveals that diverging CTCF sites are signatures of ancestral topological associating domains borders

Abstract

Extracted data

Evolutionary comparison reveals that diverging CTCF sites are signatures of ancestral topological associating domains borders

Abstract

Extracted data

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