A cell’s behavior is often closely linked to its mechanical state—for example, how it adheres to a surface or to other cells. And its mechanical state is determined largely by its cytoskeleton—a scaffolding of three distinct stiff polymers that permeates most cells (see Physics Today, February 2010, page 60). As part of her PhD work at Stanford University, Claire Elkins (now at Abbott Vascular) developed a linear cell-monolayer rheometer (LCMR, shown here) to both image and quantitatively measure mechanical properties of living cells. She and her Stanford colleagues have now used the device to elucidate the roles of the three cytoskeletal polymers. A monolayer of live cells was placed in the LCMR between two glass plates, about 5 microns apart, and allowed to adhere to the plates. Elkins and company then imparted a shear strain to the adhered cells by sliding the top plate relative to the...
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1 February 2015
February 01 2015