Living cells behave like fluid-filled sponges
Animal cells behave like fluid-filled sponges in response to being mechanically deformed according to new research published today in Nature Materials.
Animal cells behave like fluid-filled sponges in response to being mechanically deformed according to new research published today in Nature Materials.
Materials Science
Jan 7, 2013
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For much of her professional life, Dr. Susan Rosenberg has studied the puzzling response of bacteria to stress and the mutations that result. In the current issue of the journal Science, she puts together the pieces of that ...
Cell & Microbiology
Dec 6, 2012
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Bacteria that cause the tick-borne disease anaplasmosis in humans create their own food supply by hijacking a process in host cells that normally should help kill the pathogenic bugs, scientists have found.
Cell & Microbiology
Nov 29, 2012
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Researchers from HRL Laboratories are among the honorees of Popular Mechanics' 2012 Breakthrough Awards for their development of ultralight microlattice materials.
Materials Science
Oct 5, 2012
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Scientists from the Spanish National Cancer Research Centre (CNIO) describe how natural selection also occurs at the cellular level, and how our body's tissues and organs strive to retain the best cells in their ranks in ...
Cell & Microbiology
Sep 14, 2012
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During formation of multi-cellular organisms, cells need to talk to each other to make critical decisions as to what kind of cell to become, as well as when and where to become that cell type. The Notch signaling system allows ...
Cell & Microbiology
May 31, 2012
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New biological research reveals how an invading virus hijacks a cell's workings by imitating a signaling marker to defeat the body's defenses. By manipulating cell signals, the virus destroys a defensive protein designed ...
Cell & Microbiology
Mar 26, 2012
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Scientists have developed a powerful new technique, named BioID, to screen for both interacting and neighboring proteins in their native cellular environment. Elucidating protein interactions is key to better understanding ...
Cell & Microbiology
Mar 15, 2012
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Prions, the much-maligned proteins most commonly known for causing "mad cow" disease, are commonly used in yeast to produce beneficial traits in the wild. Moreover, such traits can be passed on to subsequent generations and ...
Cell & Microbiology
Feb 15, 2012
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Cells trying to keep pace with constantly changing environmental conditions need to strike a fine balance between maintaining their genomic integrity and allowing enough genetic flexibility to adapt to inhospitable conditions. ...
Cell & Microbiology
Jan 29, 2012
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