[HTML] nature.comFull View

[HTML][HTML] Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, V Manivannan, S Dutta… - Nature …, 2023 - nature.com
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …
被引用次数:6 相关文章
[HTML] nih.gov

[HTML][HTML] Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, V Manivannan, S Dutta… - Nature …, 2023 - ncbi.nlm.nih.gov
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …

Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, V Manivannan, S Dutta… - Nature …, 2023 - ideas.repec.org
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …
[PDF] archive.org

[PDF][PDF] Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, M Vinoth, S Dutta, M Mitra… - scholar.archive.org
The eukaryotic genome is organized in the form of many long chromatin polymer chains,
each essentially a string of nucleosomes—DNA wrapped around histone proteins—folded …

Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, V Manivannan… - Nature …, 2023 - econpapers.repec.org
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …

Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, V Manivannan… - Nature …, 2023 - pubmed.ncbi.nlm.nih.gov
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …

Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, S Dutta, MK Mitra, R Padinhateeri - bioRxiv, 2022 - biorxiv.org
Simulating chromatin is crucial for predicting genome organization and dynamics. Even
though coarse-grained bead-spring polymer models are commonly used to describe …

Predicting scale-dependent chromatin polymer properties from systematic coarse-graining.

S Kadam, K Kumari, V Manivannan… - Nature …, 2023 - search.ebscohost.com
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …

Predicting scale-dependent chromatin polymer properties from systematic coarse-graining.

S Kadam, K Kumari, V Manivannan, S Dutta… - Nature …, 2023 - europepmc.org
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …

Predicting scale-dependent chromatin polymer properties from systematic coarse-graining

S Kadam, K Kumari, V Manivannan… - Nature …, 2023 - ui.adsabs.harvard.edu
Simulating chromatin is crucial for predicting genome organization and dynamics. Although
coarse-grained bead-spring polymer models are commonly used to describe chromatin, the …