Local volume concentration, packing domains, and scaling properties of chromatin

Carignano, Marcelo A; Kroeger, Martin; Almassalha, Luay M; Agrawal, Vasundhara; Li, Wing Shun; Pujadas-Liwag, Emily M; Nap, Rikkert J; Backman, Vadim; Szleifer, Igal

doi:10.7554/elife.97604

eLife

2024

DOI: 10.7554/elife.97604

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Local volume concentration, packing domains, and scaling properties of chromatin

Marcelo A Carignano,

Martin Kroeger,

Luay M Almassalha

et al.

Abstract: We propose the Self Returning Excluded Volume (SR-EV) model for the structure of chromatin based on stochastic rules and physical interactions that can capture the observed behavior across imaging and sequencing based measures of chromatin organization. From nucleosome to chromosome scales, the model captures the overall chromatin organization as a corrugated system, with dense and dilute regions alternating in a manner that resembles the mixing of two disordered bi-continuous phases. This particular organizat… Show more

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2024

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Heterogeneity induced block co-polymer segregation in confinement

Mohanta,

Dwivedi,

Giri

2024

Preprint

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Motivated by the work on block copolymer models that provide insights into epigenetics driven chromosome organization, we investigate the segregation behavior of five distinct 2 block copolymers (BCPs) system with varying block sizes, confined within both symmetric and lateral geometries. Using exact enumeration method and Langevin dynamics simulation, our simple self-avoiding polymer model reveals robust behaviors (across statics and dynamic studies) despite strong finite-size effects. We observe that as block length increases, polymer compaction intensifies relying on non-specific interaction, leading to longer segregation times. The dynamic study clearly demonstrates the formation of globular lamellar phases and condensed, stable complex structures in long-range block copolymer (BCP) systems, providing a simplified analogy to lamellar-mediated chromatin compaction, which involves structures that are difficult to segregate under physiological conditions. Dominance of specific interaction over non-specific interaction in long range BCP systems leads to phase separation driven self assemblies which provides a simplified analogy to heterochromatin-inactive or stable domains. In contrast, short-range block sequences remain in a coiled state, exhibiting minimal overlap or interaction due to strong short range attraction, which may corresponds to euchromatin regions where diverse epigenetic states coexist, resulting in active, non-condensed structures. We also observe that asymmetric or lateral confinement favors more segregation between the BCPs irrespective of their underlying sequence.

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Heterogeneity induced block co-polymer segregation in confinement

Mohanta,

Dwivedi,

Giri

2024

Preprint

View full text Add to dashboard Cite

show abstract

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Local volume concentration, packing domains, and scaling properties of chromatin

Cited by 1 publication

References 78 publications

Heterogeneity induced block co-polymer segregation in confinement

Heterogeneity induced block co-polymer segregation in confinement

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