Scientists explain a glitch in the (extracellular) matrix
Through an electron microscope they may look like the giant sandworms from Dune, but C. elegans nematodes are only 1 millimeter long.
Through an electron microscope they may look like the giant sandworms from Dune, but C. elegans nematodes are only 1 millimeter long.
Cell & Microbiology
Sep 13, 2023
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112
University of Virginia scientists have identified a promising approach to delay aging by detoxifying the body of glycerol and glyceraldehyde, harmful by-products of fat that naturally accumulate over time.
Cell & Microbiology
Mar 9, 2023
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336
James Bond's legendary quartermaster Q provided the special agent with an endless array of tools and gadgets to help him accomplish his missions. Now, researchers from Japan have demonstrated equal prowess at equipping microscopic ...
Cell & Microbiology
Jun 22, 2022
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118
While humans rely on gravity for balance and orientation, the mechanisms by which we actually sense this fundamental force are largely unknown. Odder still, the model organism C. elegans, a microscopic worm, can also sense ...
Plants & Animals
Sep 30, 2021
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236
Understanding the effects of specific mutations in gene regulatory regions—the sections of DNA and RNA that turn genes on and off—is important to unraveling how the genome works, as well as normal development and disease. ...
Biotechnology
Apr 13, 2021
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28
Attaching its head to its tail to form a ring, a 3-millimeter larva of the goldenrod gall midge squeezes some internal fluids into its tail section, swelling it and raising the pressure like an inner tube.
Molecular & Computational biology
Aug 9, 2019
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75
Asian jumping earthworms are carving out territory all over the U.S. Midwest and East Coast, leaving in their wake changed soils that are just beginning to be studied.
Environment
Nov 6, 2018
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7
You might not know it, but you have probably met the mud dragon before. They live at the beach, hidden in the sand and floating in the shallows.
Plants & Animals
Apr 23, 2018
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27
In a new paper published in the journal Nature Communications, Oxford DPhil student Suzanne Ford from the Department of Zoology shows how the use of 'good bacteria' – or defensive microbes – could help fight diseases.
Cell & Microbiology
Nov 16, 2016
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13
(Phys.org)—An international team of researchers has found that at least one type of nematoad exhibits five distinct forms—each different enough that the microscopic worms were initially thought to be of different species. ...