Structural reorganization and relaxation dynamics of axially stressed chromosomes

Autor: Benjamin S. Ruben, Sumitabha Brahmachari, Vinícius G. Contessoto, Ryan R. Cheng, Antonio B. Oliveira Junior, Michele Di Pierro, José N. Onuchic
Rok vydání: 2023
Předmět:
Zdroj: Biophysical Journal. 122:1633-1645
ISSN: 0006-3495
DOI: 10.1016/j.bpj.2023.03.029
Popis: Micromechanical studies of mitotic chromosomes have revealed them to be remarkably extensible objects and informed early models of mitotic chromosome organization. We use a data-driven, coarsegrained polymer modeling approach, capable of generating ensembles of chromosome structures that are quantitatively consistent with experiments, to explore the relationship between the spatial organization of individual chromosomes and their emergent mechanical properties. In particular, we investigate the mechanical properties of our model chromosomes by axially stretching them. Simulated stretching led to a linear force-extension curve for small strain, with mitotic chromosomes behaving about ten-fold stiffer than interphase chromosomes. Studying the relaxation dynamics we found that chromosomes are viscoelastic solids, with a highly liquid-like, viscous behavior in interphase that becomes solid-like in mitosis. This emergent mechanical stiffness in our model originates from lengthwise compaction, an effective potential capturing the activity of loop-extruding SMC complexes. Chromosomes denature under large strains via unraveling, which is characterized by opening of large-scale folding patterns. By quantifying the effect of mechanical perturbations on the chromosome’s structural features, our model provides a nuanced understanding of in vivo mechanics of chromosomes.
Databáze: OpenAIRE