Add to ORKGBackground: Several recently developed experimental methods, each an extension of the chromatin conformation capture (3C) assay, have enabled the genome-wide profiling of chromatin contacts between pairs of genomic loci in 3D. Especially in complex eukaryotes, data generated by these methods, coupled with other genome-wide datasets, demonstrated that non-random chromatin folding correlates strongly with cellular processes such as gene expression and DNA replication. Results: We describe a genome architecture assay, tethered multiple 3C (TM3C), that maps genome-wide chromatin contacts via a simple protocol of restriction enzyme digestion and religation of fragments upon agarose gel beads followed by paired-end sequencing. In addition to iden...
<p>The three dimensional organization of the genome is emerging as a major determinant of gene regul...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
Chromosome conformation capture (3C) technology is a powerful and increasingly popular tool for anal...
International audienceBackground: Several recently developed experimental methods, each an extension...
The three-dimensional organization of the genome plays a critical role in the regulation of gene exp...
The three-dimensional organization of the genome plays a critical role in the regulation of gene exp...
The recent advent of conformation capture techniques has provided unprecedented insights into the sp...
The development and widespread implementation of chromosome conformation capture (3C) technology has...
The study of chromosome, and genome, organization is a both an ongoing challenge, and one with a lon...
International audienceABSTRACT: BACKGROUND: Despite its critical role for mammalian gene regulation,...
Genome-wide 3C technologies (Hi-C) are being increasingly employed to study three-dimensional (3D) g...
Gene expression in mammals is regulated by complex networks involving higher order chromatin organiz...
In eukaryotes, genome organization can be observed on many levels and at different scales. This orga...
ABSTRACT: BACKGROUND: Despite its critical role for mammalian gene regulation, the basic structural ...
Chromosome conformation capture (3C) is used to quantify physical DNA contacts in vivo at high resol...
<p>The three dimensional organization of the genome is emerging as a major determinant of gene regul...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
Chromosome conformation capture (3C) technology is a powerful and increasingly popular tool for anal...
International audienceBackground: Several recently developed experimental methods, each an extension...
The three-dimensional organization of the genome plays a critical role in the regulation of gene exp...
The three-dimensional organization of the genome plays a critical role in the regulation of gene exp...
The recent advent of conformation capture techniques has provided unprecedented insights into the sp...
The development and widespread implementation of chromosome conformation capture (3C) technology has...
The study of chromosome, and genome, organization is a both an ongoing challenge, and one with a lon...
International audienceABSTRACT: BACKGROUND: Despite its critical role for mammalian gene regulation,...
Genome-wide 3C technologies (Hi-C) are being increasingly employed to study three-dimensional (3D) g...
Gene expression in mammals is regulated by complex networks involving higher order chromatin organiz...
In eukaryotes, genome organization can be observed on many levels and at different scales. This orga...
ABSTRACT: BACKGROUND: Despite its critical role for mammalian gene regulation, the basic structural ...
Chromosome conformation capture (3C) is used to quantify physical DNA contacts in vivo at high resol...
<p>The three dimensional organization of the genome is emerging as a major determinant of gene regul...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
Chromosome conformation capture (3C) technology is a powerful and increasingly popular tool for anal...