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Learn MoreGenome-scale methods have identified subchromosomal structures so-called topologically associated domains (TADs) that subdivide the genome into discrete regulatory units, establish with their target genes. By re-engineering human duplications at the SOX9 locus in mice combined with 4C-seq and Capture Hi-C experiments, we show that genomic duplications can result in the formation of novel chromatin domains (neo-TADs) and that this process determines their molecular pathology. SOURCE: Daniel,Murad,Ibrahim (ibrahim@molgen.mpg.de) - Max-Planck Institute for Molecular Genetics
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