The genome folds into a hierarchy of three-dimensional structures within the nucleus. At the sub-megabase scale, chromosomes form topologically associating domains (TADs)1-4. However, how TADs fold in single cells is elusive. Here, we reveal TAD features inaccessible to cell population analysis by using super-resolution microscopy. TAD structures and physical insulation associated with their borders are variable between individual cells, yet chromatin intermingling is enriched within TADs compared to adjacent TADs in most cells. The spatial segregation of TADs is further exacerbated during cell differentiation. Favored interactions within TADs are regulated by cohesin and CTCF through distinct mechanisms: cohesin generates chromatin contact...
International audienceAt the kilo- to megabase pair scales, eukaryotic genomes are partitioned into ...
International audienceBackground : The 3D organization of the chromatin fiber in cell nuclei plays a...
The tridimensional (3D) organization of mammalian genomes combines structures from different length ...
Super-resolution microscopy identifies sub-topologically associating domain (TAD) nanodomains and in...
International audienceDeciphering the rules of genome folding in the cell nucleus is essential to un...
Three-dimensional (3D) chromatin organization plays a key role in regulating mammalian genome functi...
Inside of the nucleus, chromosomes are intricately folded to regulate expression of their genes. Ear...
Abstract Background Mechanisms underlying genome 3D organization and domain formation in the mammali...
Abstract Background Topologically associating domains (TADs) are important building blocks of three-...
My thesis project consisted in studying the mechanisms of the three-dimensional genome folding in eu...
Proximity ligation assays such as circularized chromosome conformation capture and high-throughput c...
Imaging and chromosome conformation capture studies have revealed several layers of chromosome organ...
Whereas folding of genomes at the large scale of epigenomic compartments and topologically associati...
Mammalian chromosomes fold into arrays of megabase‐sized topologically associating domains (TADs), w...
Mammalian genomes are folded into spatial domains, which regulate gene expression by modulating enha...
International audienceAt the kilo- to megabase pair scales, eukaryotic genomes are partitioned into ...
International audienceBackground : The 3D organization of the chromatin fiber in cell nuclei plays a...
The tridimensional (3D) organization of mammalian genomes combines structures from different length ...
Super-resolution microscopy identifies sub-topologically associating domain (TAD) nanodomains and in...
International audienceDeciphering the rules of genome folding in the cell nucleus is essential to un...
Three-dimensional (3D) chromatin organization plays a key role in regulating mammalian genome functi...
Inside of the nucleus, chromosomes are intricately folded to regulate expression of their genes. Ear...
Abstract Background Mechanisms underlying genome 3D organization and domain formation in the mammali...
Abstract Background Topologically associating domains (TADs) are important building blocks of three-...
My thesis project consisted in studying the mechanisms of the three-dimensional genome folding in eu...
Proximity ligation assays such as circularized chromosome conformation capture and high-throughput c...
Imaging and chromosome conformation capture studies have revealed several layers of chromosome organ...
Whereas folding of genomes at the large scale of epigenomic compartments and topologically associati...
Mammalian chromosomes fold into arrays of megabase‐sized topologically associating domains (TADs), w...
Mammalian genomes are folded into spatial domains, which regulate gene expression by modulating enha...
International audienceAt the kilo- to megabase pair scales, eukaryotic genomes are partitioned into ...
International audienceBackground : The 3D organization of the chromatin fiber in cell nuclei plays a...
The tridimensional (3D) organization of mammalian genomes combines structures from different length ...
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