Topological spectra and entropy of chromatin loop networks
The 3D folding of a mammalian gene can be studied by a polymer model, where the
chromatin fiber is represented by a semiflexible polymer which interacts with multivalent …
chromatin fiber is represented by a semiflexible polymer which interacts with multivalent …
Topological spectra and entropy of chromatin loop networks
A Bonato, M Chiang, D Corbett, S Kitaev… - Physical Review …, 2024 - strathprints.strath.ac.uk
The 3D folding of a mammalian gene can be studied by a polymer model, where the
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …
Topological spectra and entropy of chromatin loop networks
A Bonato, D Corbett, S Kitaev, D Marenduzzo… - arXiv preprint arXiv …, 2023 - arxiv.org
The 3D folding of a mammalian gene can be studied by a polymer model, where the
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …
Topological spectra and entropy of chromatin loop networks
A Bonato, M Chiang, D Corbett, S Kitaev… - Physical Review …, 2024 - pureportal.strath.ac.uk
The 3D folding of a mammalian gene can be studied by a polymer model, where the
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …
Topological spectra and entropy of chromatin loop networks
A Bonato, D Corbett, S Kitaev, D Marenduzzo… - arXiv e …, 2023 - ui.adsabs.harvard.edu
The 3D folding of a mammalian gene can be studied by a polymer model, where the
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …
chromatin fibre is represented by a semiflexible polymer which interacts with multivalent …