Study reveals how mechanical forces drive skeletal development
New research has revealed how mechanical forces caused by fetal movements drive skeletal development in the embryo.
New research has revealed how mechanical forces caused by fetal movements drive skeletal development in the embryo.
Cell & Microbiology
Jan 27, 2023
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30
An article published in the Journal of Proteome Research by researchers at the Federal University of São Paulo (UNIFESP) and Butantan Institute in Brazil reports the findings of a study that characterized for the first time ...
Biochemistry
Jan 18, 2023
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19
The transient receptor potential vanilloid (TRPV1) ion channel is a polymodal nociceptor broadly expressed in sensory neurons involved in pain sensation, thereby playing an essential role in analgesia. The outer pore domain ...
Biochemistry
Jan 16, 2023
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41
Neuromorphic devices have attracted increasing attention because of their potential applications in neuromorphic computing, intelligence sensing, brain-machine interfaces and neuroprosthetics. However, most of the neuromorphic ...
Biochemistry
Jan 13, 2023
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33
A new study led by UNSW Sydney scientists unveils how nature's oldest wheel, found within bacteria, can fix itself when times get tough.
Cell & Microbiology
Nov 23, 2022
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248
The mechanism by which fat-related molecules called lipids regulate pacemaker ion channel proteins, which help control the heart rhythm, has been revealed in a study from researchers at Weill Cornell Medicine.
Molecular & Computational biology
Nov 9, 2022
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33
A team of scientists at Whitehead Institute and the Broad Institute of MIT and Harvard have systematically evaluated the functions of more than 5,000 essential human genes using a novel, pooled, imaged-based screening method. ...
Cell & Microbiology
Nov 8, 2022
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209
Five proteins share important roles in the formation and function of synapses and can substitute for each other. This discovery was made by a team of the Karl Landsteiner University of Health Sciences Krems (KL Krems) and ...
Evolution
Oct 25, 2022
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32
A team of researchers affiliated with the Duke University School of Medicine, Lehigh University and the National Institutes of Health has revealed the molecular means by which cold-sensing channels in cells are manipulated ...
Plant leaves can cope with much higher salt concentrations than roots. The underlying mechanism may help to develop more salt-tolerant crops.
Cell & Microbiology
Oct 6, 2022
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26