Litcius/Paper detail

Dynamic Nuclear Structure Emerges from Chromatin Cross-Links and Motors

Kuang Liu, Alison E. Patteson, Edward J. Banigan, J. M. Schwarz

2021Physical Review Letters40 citationsDOIOpen Access PDF

Abstract

The cell nucleus houses the chromosomes, which are linked to a soft shell of lamin protein filaments. Experiments indicate that correlated chromosome dynamics and nuclear shape fluctuations arise from motor activity. To identify the physical mechanisms, we develop a model of an active, cross-linked Rouse chain bound to a polymeric shell. System-sized correlated motions occur but require both motor activity and cross-links. Contractile motors, in particular, enhance chromosome dynamics by driving anomalous density fluctuations. Nuclear shape fluctuations depend on motor strength, cross-linking, and chromosome-lamina binding. Therefore, complex chromosome dynamics and nuclear shape emerge from a minimal, active chromosome-lamina system.

Topics & Concepts

ChromatinNuclear laminaLaminChromosomeNucleusPhysicsBiophysicsMolecular motorShell (structure)BiologyDNAMaterials scienceNuclear proteinGeneticsCell biologyTranscription factorGeneComposite materialGenomics and Chromatin DynamicsMicrotubule and mitosis dynamicsNuclear Structure and Function