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Probe can measure both cell stiffness and traction, researchers report

January 27, 2023

Scientists have developed a tiny mechanical probe that can measure the inherent stiffness of cells and tissues as well as the internal forces the cells generate and exert on one another. Their new “magnetic microrobot” is the first such probe to be able to quantify both properties, the researchers report, and will aid in understanding cellular processes associated with development and disease.

They detail their findings in the journal Science Robotics.


January 27, 2023


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Developing alginate hydrogels that can support cell growth

November 11, 2022

Encapsulating cells—both prokaryotic and eukaryotic—allows researchers to carry out experiments in hydrated environments over prolonged periods of time. However, cell growth under these conditions can exert a lot of pressure on the encapsulating shells, resulting in cell leakage. In a new study, researchers at the University of Illinois Urbana-Champaign have developed modified alginate hydrogels that can endure the growth of bacteria, allowing them to synthesize important enzymes.


November 11, 2022


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Physical force alone spurs gene expression

April 3, 2020

Cells will ramp up gene expression in response to physical forces alone, a new study finds. Gene activation, the first step of protein production, starts less than one millisecond after a cell is stretched - hundreds of times faster than chemical signals can travel, the researchers report.

The scientists tested forces that are biologically relevant - equivalent to those exerted on human cells by breathing, exercising or vocalizing. They report their findings in the journal Science Advances.


April 3, 2020


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