Filament Transport Supports Contractile Steady States of Actin Networks

Significance Statement: Cellular structures continuously self-renew, with new material constantly being added and removed while maintaining overall structural stability. This is particularly true for the actin cytoskeleton, whose components are continuously assembled, displaced, and reassembled. Understanding this process is fundamental to uncovering how cells regulate their architecture and adapt to stimuli.Here, we reconstitute an in vitro actomyosin network capable of contracting steadily over time without collapsing, relying solely on myosin-based transport. These findings demonstrate that a minimal system consisting of actin and molecular motors can effectively recapitulate the ability of actin networks to self-organize into stable yet dynamic architectures.