Add to ORKGChromatin folding is increasingly recognized as a regulator of genomic processes such as gene activity. Chromosome conformation capture (3C) methods have been developed to unravel genome topology through the analysis of pair-wise chromatin contacts and have identified many genes and regulatory sequences that, in populations of cells, are engaged in multiple DNA interactions. However, pair-wise methods cannot discern whether contacts occur simultaneously or in competition on the individual chromosome. We present a novel 3C method, Multi-Contact 4C (MC-4C), that applies Nanopore sequencing to study multi-way DNA conformations of tens of thousands individual alleles for distinction between cooperative, random and competing interactions. MC-4C ...
It is now well established that genome organization plays a major role in its functioning. Enhancers...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
The three dimensional organization of the genome is emerging as a major determinant of gene regulati...
Chromatin folding is increasingly recognized as a regulator of genomic processes such as gene activi...
Chromatin folding is increasingly recognized as a regulator of genomic processes such as gene activi...
Chromatin folding contributes to the regulation of genomic processes such as gene activity. Existing...
The promoters of mammalian genes are commonly regulated by multiple distal enhancers, which physical...
International audienceBackground: Several recently developed experimental methods, each an extension...
We present the experimental protocol and data analysis toolbox for multi-contact 4C (MC-4C), a new p...
Chromatin interactions are important for gene regulation and cellular specialization. Emerging evide...
The development and widespread implementation of chromosome conformation capture (3C) technology has...
Gene expression in mammals is regulated by complex networks involving higher order chromatin organiz...
It is established that transcription of many metazoan genes is regulated by distal regulatory sequen...
Chromosome conformation capture uncovers potential genome-wide interactions between human conserved ...
It is now well established that genome organization plays a major role in its functioning. Enhancers...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
The three dimensional organization of the genome is emerging as a major determinant of gene regulati...
Chromatin folding is increasingly recognized as a regulator of genomic processes such as gene activi...
Chromatin folding is increasingly recognized as a regulator of genomic processes such as gene activi...
Chromatin folding contributes to the regulation of genomic processes such as gene activity. Existing...
The promoters of mammalian genes are commonly regulated by multiple distal enhancers, which physical...
International audienceBackground: Several recently developed experimental methods, each an extension...
We present the experimental protocol and data analysis toolbox for multi-contact 4C (MC-4C), a new p...
Chromatin interactions are important for gene regulation and cellular specialization. Emerging evide...
The development and widespread implementation of chromosome conformation capture (3C) technology has...
Gene expression in mammals is regulated by complex networks involving higher order chromatin organiz...
It is established that transcription of many metazoan genes is regulated by distal regulatory sequen...
Chromosome conformation capture uncovers potential genome-wide interactions between human conserved ...
It is now well established that genome organization plays a major role in its functioning. Enhancers...
The three-dimensional folding of chromosomes compartmentalizes the genome and and can bring distant ...
The three dimensional organization of the genome is emerging as a major determinant of gene regulati...