The dynamic bending and twisting of actin drives numerous cellular processes. To compare how different spatial scales in actin models capture these dynamics, we developed two models of actin filaments: one at monomer-scale using ReaDDy and one at fiber-scale using Cytosim. Simulating filament compression across a range of velocities, we found a divergence between the monomer- and fiber-scale simulations; notably, the monomer-scale simulations more effectively captured filament supertwist, characteristic of helical structure, but at a higher computational cost. Such comparisons can aid in designing more efficient and accurate multi-scale biological models. Interactive visualizations at https://simularium.github.io/subcell-website.
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