MECHANISMS OF CONTRACTILE NETWORK ASSEMBLY
$428,666R35FY2025GMNIH
Loyola University Chicago, Maywood IL
Investigators
Linked publications & trials
Paper 39026829Paper 38469150Paper 38353656Paper 38062704Paper 37348811Paper 37333106Paper 37218133Paper 37162845Paper 36917212Paper 36865321Paper 35605666
Abstract
Project Summary/Abstract A fundamental question in cell physiology is how appropriate levels of cell contractility are generated to drive cell and tissue morphogenesis and mechanical homeostasis. We know cells contractile events to enable dynamic movements. We do not know how they generate and tune contractility in the right place at the right time. Myosin 2 filaments are the dominant force- generating motor proteins in all cells and tissues. This proposal uses an array of molecular, cellular, and imaging techniques to understand myosin 2 modulation and function in living mammalian cells. We anticipate the completion of this work will answer critical questions and yield important new avenues to pursue.
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