2020
DOI: 10.1101/2020.02.03.932863
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Tensile Force Induced Cytoskeletal Reorganization: Mechanics Before Chemistry

Abstract: Understanding cellular remodeling in response to mechanical stimuli is a critical step in elucidating mechano-activation of biochemical signaling pathways. Experimental evidence indicates that external stress-induced subcellular adaptation is accomplished through dynamic cytoskeletal reorganization. To study the interactions between subcellular structures involved in transducing mechanical signals, we combined experimental and computational simulations to evaluate real-time mechanical adaptation of the actin c… Show more

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