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Buckling-Driven Force Generation Of Cell Cortex, Pranith Lomada, Wonyeong Jung, Taeyoon Kim
Buckling-Driven Force Generation Of Cell Cortex, Pranith Lomada, Wonyeong Jung, Taeyoon Kim
The Summer Undergraduate Research Fellowship (SURF) Symposium
Actomyosin cortex, a thin network underlying cell membrane, is known to generate a large portion of tensile forces required for various cellular processes. Recently, theoretical studies predicted that buckling of actin filaments breaks symmetry between tensile and compressive forces developed by myosin motors, resulting in tensile stress at a network level. However, the significance of the filament buckling of the cortex has yet to be demonstrated either computationally or experimentally. Here, buckling-dependent stress generation of the cortex-like actomyosin network was investigated using an agent-based computational model consisting of actin filaments, actin cross-linking proteins (ACPs), and molecular motors. First, a wide …