Add to ORKGThe 3D organization of an eukaryotic genome plays an important role in nuclear gene expression. Until recently, studies of this organization were limited by light microscopy and electron microscopy methods. The development of chromosome conformation capture (3С) methods allowed studying genome-wide chromosomal contacts by using only molecular methods. Nowadays, numerous 3C-based methods have been developed to reconstruct the 3D organization of eukaryotic genomes
3C (chromatin conformation capture) is a technique to analyze chromatin organization in nuclei of eu...
The development and widespread implementation of chromosome conformation capture (3C) technology has...
The way that chromatin is organized in three-dimensional nuclear space is now acknowledged as a fact...
The 3D organization of an eukaryotic genome plays an important role in nuclear gene expression. Unti...
Abstract It is well known that the chromosomes are organized in the nucleus and this spatial arrange...
Three-dimensional organization of the chromatin has important roles in transcription, replication, D...
The study of chromosome, and genome, organization is a both an ongoing challenge, and one with a lon...
The spatial organization of genomes is studied using microscopy- and chromosome conformation capture...
In all organisms, chromatin is packed to fulfil structural constraints and functional requirements. ...
The relevance of three-dimensional (3D) genome organization for transcriptional regulation and there...
How DNA is organized in three dimensions inside the cell nucleus and how this affects the ways in wh...
The relevance of three-dimensional (3D) genome organization for transcriptional regulation and there...
International audienceUnderstanding how chromatin is folded in the nucleus is fundamental to underst...
Over the past 10 years, the development of chromosome conformation capture (3C) technology and the s...
In eukaryotes, genome organization can be observed on many levels and at different scales. This orga...
3C (chromatin conformation capture) is a technique to analyze chromatin organization in nuclei of eu...
The development and widespread implementation of chromosome conformation capture (3C) technology has...
The way that chromatin is organized in three-dimensional nuclear space is now acknowledged as a fact...
The 3D organization of an eukaryotic genome plays an important role in nuclear gene expression. Unti...
Abstract It is well known that the chromosomes are organized in the nucleus and this spatial arrange...
Three-dimensional organization of the chromatin has important roles in transcription, replication, D...
The study of chromosome, and genome, organization is a both an ongoing challenge, and one with a lon...
The spatial organization of genomes is studied using microscopy- and chromosome conformation capture...
In all organisms, chromatin is packed to fulfil structural constraints and functional requirements. ...
The relevance of three-dimensional (3D) genome organization for transcriptional regulation and there...
How DNA is organized in three dimensions inside the cell nucleus and how this affects the ways in wh...
The relevance of three-dimensional (3D) genome organization for transcriptional regulation and there...
International audienceUnderstanding how chromatin is folded in the nucleus is fundamental to underst...
Over the past 10 years, the development of chromosome conformation capture (3C) technology and the s...
In eukaryotes, genome organization can be observed on many levels and at different scales. This orga...
3C (chromatin conformation capture) is a technique to analyze chromatin organization in nuclei of eu...
The development and widespread implementation of chromosome conformation capture (3C) technology has...
The way that chromatin is organized in three-dimensional nuclear space is now acknowledged as a fact...