Activity-driven chromatin organization during interphase: compaction, segregation, and entanglement suppression

Abstract: In mammalian cells, the cohesin protein complex is believed to translocate along chromatin during interphase to form dynamic loops through a process called active loop extrusion. Chromosome conformation capture and imaging experiments have suggested that chromatin adopts a compact structure with limited interpenetration between chromosomes and between chromosomal sections. We developed a theory demonstrating that active loop extrusion causes the apparent fractal dimension of chromatin to cross over between two… Show more

“…Caution is recommended when comparing such data from different studies, as measurements are strongly influenced by the inclusion of a decondensed periphery or of only the compact core region and can be influenced by fixation protocols. Furthermore, it is important to realize that liquid droplet models of CD organization and structural models have strongly different biophysical implications for CD duplication 49 . For example, in a structured CD individual DNA sequences may be permanently located within the center of the compact core region.…”

Space-time dynamics of genome replication studied with super-resolved microscopy

“…Caution is recommended when comparing such data from different studies, as measurements are strongly influenced by the inclusion of a decondensed periphery or of only the compact core region and can be influenced by fixation protocols. Furthermore, it is important to realize that liquid droplet models of CD organization and structural models have strongly different biophysical implications for CD duplication 49 . For example, in a structured CD individual DNA sequences may be permanently located within the center of the compact core region.…”

Space-time dynamics of genome replication studied with super-resolved microscopy