Hi-C enables simultaneous detection of interaction frequencies between all possible pairs of restriction fragments in the genome. The Hi-C method is based on chromosome conformation capture (3C), which uses formaldehyde cross-linking to fix chromatin regions that interact in three-dimensional space, irrespective of their genomic locations. In the Hi-C protocol described here, cross-linked chromatin is digested with HindIII and the ends are filled in with a nucleotide mix containing bio-tinylated dCTP. These fragments are ligated together, and the resulting chimeric molecules are purified and sheared to reduce length. Finally, biotinylated ligation junctions are pulled down with streptavi-din-coated beads, linked to high-throughput sequencin...
We describe a Hi-C-based method, Micro-C, in which micrococcal nuclease is used instead of restricti...
SummaryWe describe a Hi-C-based method, Micro-C, in which micrococcal nuclease is used instead of re...
Chromosome conformation capture (3C) is used to quantify physical DNA contacts in vivo at high resol...
Hi-C enables simultaneous detection of interaction frequencies between all possible pairs of restric...
The intricate folding of chromatin enables living organisms to store genomic material in an extremel...
We describe a method, Hi-C, to comprehensively detect chromatin interactions in the mammalian nucleu...
Chromosome conformation capture-based methods such as Hi-C have become mainstream techniques for the...
Chromosome conformation capture-based methods such as Hi-C have become mainstream techniques for the...
Chromosome conformation capture (3C) is a method for studying chromosomal organization that takes ad...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
Chromosome conformation capture (3C) technologies can be used to investigate 3D genomic structures. ...
Chromosome conformation capture (3C), coupled with next-generation sequencing (Hi-C), provides a mea...
While we often think of the genome as a linear object, in reality chromosomes are folded in a highly...
Chromosome conformation capture (3C) is one of the only techniques that allows for analysis of an in...
International audienceIn chromosome conformation capture experiments (Hi-C), the accuracy with which...
We describe a Hi-C-based method, Micro-C, in which micrococcal nuclease is used instead of restricti...
SummaryWe describe a Hi-C-based method, Micro-C, in which micrococcal nuclease is used instead of re...
Chromosome conformation capture (3C) is used to quantify physical DNA contacts in vivo at high resol...
Hi-C enables simultaneous detection of interaction frequencies between all possible pairs of restric...
The intricate folding of chromatin enables living organisms to store genomic material in an extremel...
We describe a method, Hi-C, to comprehensively detect chromatin interactions in the mammalian nucleu...
Chromosome conformation capture-based methods such as Hi-C have become mainstream techniques for the...
Chromosome conformation capture-based methods such as Hi-C have become mainstream techniques for the...
Chromosome conformation capture (3C) is a method for studying chromosomal organization that takes ad...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
Chromosome conformation capture (3C) technologies can be used to investigate 3D genomic structures. ...
Chromosome conformation capture (3C), coupled with next-generation sequencing (Hi-C), provides a mea...
While we often think of the genome as a linear object, in reality chromosomes are folded in a highly...
Chromosome conformation capture (3C) is one of the only techniques that allows for analysis of an in...
International audienceIn chromosome conformation capture experiments (Hi-C), the accuracy with which...
We describe a Hi-C-based method, Micro-C, in which micrococcal nuclease is used instead of restricti...
SummaryWe describe a Hi-C-based method, Micro-C, in which micrococcal nuclease is used instead of re...
Chromosome conformation capture (3C) is used to quantify physical DNA contacts in vivo at high resol...