about
Entropy gives rise to topologically associating domains.Closing the loop: 3C versus DNA FISHCHiCAGO: robust detection of DNA looping interactions in Capture Hi-C dataHi-C-constrained physical models of human chromosomes recover functionally-related properties of genome organization.Organization of the mitotic chromosome.Modeling epigenome folding: formation and dynamics of topologically associated chromatin domains.Probing transient protein-mediated DNA linkages using nanoconfinement.Exploring the three-dimensional organization of genomes: interpreting chromatin interaction data.Fractal globules: a new approach to artificial molecular machinesColocalization of coregulated genes: a steered molecular dynamics study of human chromosome 19.The three-dimensional folding of the α-globin gene domain reveals formation of chromatin globules.Internucleosomal interactions mediated by histone tails allow distant communication in chromatinLarge Scale Chromosome Folding Is Stable against Local Changes in Chromatin Structure.Physical Modeling of Dynamic Coupling between Chromosomal LociFormation of Chromosomal Domains by Loop Extrusion.Dynamic properties of independent chromatin domains measured by correlation spectroscopy in living cellsStructure determination of genomic domains by satisfaction of spatial restraints.Higher-order chromatin structure: bridging physics and biology.Topological constraints and chromosome organization in eukaryotes: a physical point of view.Modeling chromosomes: Beyond pretty pictures.Chromatin stiffening underlies enhanced locus mobility after DNA damage in budding yeast.Inferring the physical properties of yeast chromatin through Bayesian analysis of whole nucleus simulations.Dynamical modeling of three-dimensional genome organization in interphase budding yeast.Recovering ensembles of chromatin conformations from contact probabilities.Roles of DNA looping in enhancer-blocking activity.The post-mitotic state in neurons correlates with a stable nuclear higher-order structure.Physical tethering and volume exclusion determine higher-order genome organization in budding yeastHow to build a yeast nucleus.Lattice animal model of chromosome organization.Shaping epigenetic memory via genomic bookmarking.A maximum-entropy model for predicting chromatin contacts.Viscoelasticity of model interphase chromosomes.Nonequilibrium Chromosome Looping via Molecular Slip Links.How epigenome drives chromatin folding and dynamics, insights from efficient coarse-grained models of chromosomes.Interphase human chromosome exhibits out of equilibrium glassy dynamics
P2860
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P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Looping probabilities in model interphase chromosomes.
@ast
Looping probabilities in model interphase chromosomes.
@en
type
label
Looping probabilities in model interphase chromosomes.
@ast
Looping probabilities in model interphase chromosomes.
@en
prefLabel
Looping probabilities in model interphase chromosomes.
@ast
Looping probabilities in model interphase chromosomes.
@en
P2093
P2860
P1433
P1476
Looping probabilities in model interphase chromosomes.
@en
P2093
Angelo Rosa
Nils B Becker
Ralf Everaers
P2860
P304
P356
10.1016/J.BPJ.2010.01.054
P407
P577
2010-06-01T00:00:00Z