2024
Cohesin distribution alone predicts chromatin organization in yeast via conserved-current loop extrusion
Yuan T, Yan H, Li K, Surovtsev I, King M, Mochrie S. Cohesin distribution alone predicts chromatin organization in yeast via conserved-current loop extrusion. Genome Biology 2024, 25: 293. PMID: 39543681, PMCID: PMC11566905, DOI: 10.1186/s13059-024-03432-2.Peer-Reviewed Original ResearchConceptsTopologically associating domainsLoop extrusionTopologically associating domains boundariesNon-vertebrate eukaryotesChIP-seq dataChromatin spatial organizationTree of lifeHi-C mapsBinds CTCFCohesin distributionTAD boundariesCTCF sitesChromatin organizationDNA sequencesCTCFCohesinYeastChromatinSpatial organizationEukaryotesGenomeResultsToVertebratesExtrusion factorsOrganizationEffect of loops on the mean-square displacement of Rouse-model chromatin
Yuan T, Yan H, Bailey M, Williams J, Surovtsev I, King M, Mochrie S. Effect of loops on the mean-square displacement of Rouse-model chromatin. Physical Review E 2024, 109: 044502. PMID: 38755928, DOI: 10.1103/physreve.109.044502.Peer-Reviewed Original ResearchConceptsStretching exponentConsistent with recent experimentsTopologically associating domainsMean square displacementRecent experimentsLoop extrusionExponent valuesTAD formationTree of lifeDynamics of chromatinExponentEffects of loopChromatin lociChromatin dynamicsRouse modelChromatin organizationChromatin mobilityGene locusContact mapsDynamicsChromatinLoopPolymer dynamicsLociPolymer simulations
2021
Extrusion of chromatin loops by a composite loop extrusion factor
Yan H, Surovtsev I, Williams JF, Bailey MLP, King MC, Mochrie SGJ. Extrusion of chromatin loops by a composite loop extrusion factor. Physical Review E 2021, 104: 024414. PMID: 34525654, PMCID: PMC9112126, DOI: 10.1103/physreve.104.024414.Peer-Reviewed Original Research