Abstract Background Although spatial organization of compartments and topologically associating domains at large scale is relatively well studied, the spatial organization of regulatory elements at fine scale is poorly understood in plants. Results Here we perform high-resolution chromatin interaction analysis using paired-end tag sequencing approach. We map chromatin interactions tethered with RNA polymerase II and associated with heterochromatic, transcriptionally active, and Polycomb-repressive histone modifications in Arabidopsis. Analysis of the regulatory repertoire shows that distal active cis-regulatory elements are linked to their target genes through long-range chromatin interactions with increased expression of the target genes, ...
Abstract Background In all eukaryotic species examined, genes that are chromosomal neighbours are mo...
In eukaryotes, cell-fate determination, differentiation and developmental programs require precise s...
Chromosomes are folded, spatially organized, and regulated by epigenetic marks. How chromosomal arch...
International audienceIn animals, distant H3K27me3-marked Polycomb targets can establish physical in...
The interphase nucleus exists as a highly dynamic system, the physical properties of which have func...
Abstract Background There is a growing interest in the role of chromatin in acquiring and maintainin...
International audienceThe three-dimensional organization of the eukaryotic nucleus and its chromosom...
Chromosomes form 3D structures that are critical to the regulation of cellular and genetic processes...
Understanding the mechanisms underlying gene regulation is paramount to comprehend the translation f...
The transcriptional regulatory structure of plant genomes remains poorly defined relative to animals...
The three-dimensional packing of the genome plays an important role in regulating gene expression. W...
International audienceChromatin modifiers and remodelers are involved in generating dynamic changes ...
The nuclear space is not a homogeneous biochemical environment. Many studies have demonstrated that ...
The spatial arrangement of interphase chromosomes in the nucleus is important for gene expression an...
Post-translational modification of histones and DNA methylation are important components of chromati...
Abstract Background In all eukaryotic species examined, genes that are chromosomal neighbours are mo...
In eukaryotes, cell-fate determination, differentiation and developmental programs require precise s...
Chromosomes are folded, spatially organized, and regulated by epigenetic marks. How chromosomal arch...
International audienceIn animals, distant H3K27me3-marked Polycomb targets can establish physical in...
The interphase nucleus exists as a highly dynamic system, the physical properties of which have func...
Abstract Background There is a growing interest in the role of chromatin in acquiring and maintainin...
International audienceThe three-dimensional organization of the eukaryotic nucleus and its chromosom...
Chromosomes form 3D structures that are critical to the regulation of cellular and genetic processes...
Understanding the mechanisms underlying gene regulation is paramount to comprehend the translation f...
The transcriptional regulatory structure of plant genomes remains poorly defined relative to animals...
The three-dimensional packing of the genome plays an important role in regulating gene expression. W...
International audienceChromatin modifiers and remodelers are involved in generating dynamic changes ...
The nuclear space is not a homogeneous biochemical environment. Many studies have demonstrated that ...
The spatial arrangement of interphase chromosomes in the nucleus is important for gene expression an...
Post-translational modification of histones and DNA methylation are important components of chromati...
Abstract Background In all eukaryotic species examined, genes that are chromosomal neighbours are mo...
In eukaryotes, cell-fate determination, differentiation and developmental programs require precise s...
Chromosomes are folded, spatially organized, and regulated by epigenetic marks. How chromosomal arch...