2017
DOI: 10.1007/s10577-016-9548-2
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Perspectives: using polymer modeling to understand the formation and function of nuclear compartments

Abstract: Compartmentalization is a ubiquitous feature of cellular function. In the nucleus, early observations revealed a non-random spatial organization of the genome with a large-scale segregation between transcriptionally active—euchromatin—and silenced—heterochromatin—parts of the genome. Recent advances in genome-wide mapping and imaging techniques have strikingly improved the resolution at which nuclear genome folding can be analyzed and have revealed a multiscale spatial compartmentalization with increasing evid… Show more

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Cited by 73 publications
(69 citation statements)
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“…Heterogeneous chromatin motion arises due to irregular protein binding along the chromosomes and can lead to thermodynamic or electrostatic self-organisation of nuclear compartments [48,49]. Local patches of large anomalous exponents indicate super-diffusive behaviour of chromatin which may result, among others, from thermal and/or active noise acting on the chromatin fiber [50,51], even in quiescent cells.…”
Section: Discussionmentioning
confidence: 99%
“…Heterogeneous chromatin motion arises due to irregular protein binding along the chromosomes and can lead to thermodynamic or electrostatic self-organisation of nuclear compartments [48,49]. Local patches of large anomalous exponents indicate super-diffusive behaviour of chromatin which may result, among others, from thermal and/or active noise acting on the chromatin fiber [50,51], even in quiescent cells.…”
Section: Discussionmentioning
confidence: 99%
“…Such looping has been reported to occur via CCCTC-binding Factor (CTCF) 94 , cohesin 95 , and Yin-Yang factor 1 (YY1) 96 . Beyond the interactions between protein bound DNA elements, chemical compartmentalization, such as parylation [G] , sumoylation [G] , and phase separation [G] , can create insulated regions (reviewed in 9799 ), which we discuss here below.…”
Section: Chromatin Remodelling Upon Stressmentioning
confidence: 99%
“…Therefore, these epigenetic modifications play a critical role in cell proliferation, differentiation, apoptosis, growth, and development of a cell and an organism including the process of tumorigenesis and metastasis as depicted in Figure . The eukaryotic chromatin network differentiates into the transcriptionally active euchromatin and transcriptionally inactive heterochromatin . The euchromatin region is relatively more diffused and associated with active transcription throughout the cell cycle.…”
Section: Epigenetic and Cancermentioning
confidence: 99%