Visualisation reveals how a protein 'hunkers down' to conserve energy
A visualization made from nearly 100,000 electron microscope images has revealed the ingenious way a protein involved in muscle activity shuts itself down to conserve energy.
A visualization made from nearly 100,000 electron microscope images has revealed the ingenious way a protein involved in muscle activity shuts itself down to conserve energy.
Molecular & Computational biology
Dec 2, 2020
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61
What does the defense against bacterial infections have in common with hearing or fertilization? Key players in these and many other crucial biological processes belong to a large family of extracellular proteins using a ...
Cell & Microbiology
Nov 16, 2020
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48
Actin is among the most abundant proteins in cells, and it has many jobs—from giving the cell its very shape and structure to managing networks of proteins crucial to numerous cellular functions. Without it, the fragile ...
Cell & Microbiology
Oct 26, 2020
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30
It might look like a little game at the molecular scale.
Molecular & Computational biology
Oct 14, 2020
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190
A chameleonlike protein in neurons can change its mind, and in the process change our brains.
Biochemistry
Aug 25, 2020
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211
AMOLF researchers have presented a theory that describes the friction between biological filaments that are crosslinked by proteins. Surprisingly, their theory predicts that the friction force scales highly nonlinearly with ...
General Physics
Aug 14, 2020
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78
Researchers at the Max Delbrück Center for Molecular Medicine in the Helmholtz Association (MDC) developed a mouse model that enables them to look inside a working muscle and identify the proteins that allow the sarcomere ...
Molecular & Computational biology
Jun 19, 2020
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176
The cytoskeleton is a permanent construction site consisting of protein filaments that are continually lengthening and shortening in a dynamic process. Through these remodeling processes, the cell can change its shape and ...
Cell & Microbiology
Mar 24, 2020
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33
A team of researchers at Rockefeller University has found that phase separation problems with proteins in the skin may account for the development of some skin diseases. In their paper published in the journal Science, the ...
Many amphibians and fish are able to change their color in order to better adapt to their environment. Munich-based scientists have now investigated the molecular mechanisms in the cytoskeleton necessary for this and revealed ...
Biotechnology
Feb 12, 2020
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25