New research reveals that brain cells use a muscle-like signaling mechanism to relay information over long distances.
A research team led by Professor Kazuaki Sawada and Project Assistant Professor Hideo Doi of the Department of Electrical and Electronic Information Engineering, Toyohashi University of Technology has ...
Financial writer recommends Voyager Therapeutics, Inc. for high-risk investors due to promising preclinical Alzheimer's ...
A research team led by Professor Kazuaki Sawada and Project Assistant Professor Hideo Doi of the Department of Electrical and Electronic Information ...
New research, published recently in Proceedings of the National Academy of Sciences, uncovers the unique dynamics governing the endoplasmic reticulum (ER)’s evolution and addresses the long-standing ...
In biology textbooks, the endoplasmic reticulum is often portrayed as a distinct, compact organelle near the nucleus, and is commonly known to be ...
In biology textbooks, the endoplasmic reticulum is often portrayed as a distinct, compact organelle near the nucleus, and is commonly known to be responsible for protein trafficking and secretion. In ...
Tight junction proteins bind to the surface of the cell membrane at the interface where the cells touch each other. When the number of proteins bound there reaches a certain threshold, the ...
The blood–brain barrier is the biggest challenge to the development of drugs that target the CNS. Most capillary beds leak plasma contents between and across endothelial cells by way of window-like ...
By visualizing a RhoA biosensor and actin, they found a redistribution of RhoA to the cell periphery and cell-cell junctions after IL-1 stimulation. This triggered the formation of actin bundles at ...