Stem cells and real estate have this in common: the most important thing is location, location, and location.
Stem cells are extensively studied because of their ability to generate a wide variety of tissue types — from new heart, liver and even brain...
It has been 60 years since scientists discovered that sodium channels create the electrical impulses crucial to the function of nerve, brain, and heart cells — all of which are termed “excitable.” Now researchers at Yale and elsewhere are discovering that...
Inflammation is the common denominator of many chronic age-related diseases such as arthritis, gout, Alzheimer’s, and diabetes. But according to a Yale School of Medicine study, even in the absence of a disease, inflammation can lead to serious loss of...
The birth of new neurons depend upon activation of an important molecular pathway in stem cells, a new Yale School of Medicine study shows.Angelique Bordey and colleagues show that activation of the mTOR pathway (mammalian target of rapamycin) helps...
A new study from Yale School of Medicine uncovers clues as to how a key part of the immune system is regulated to avoid tissue injury to human organs after stroke or transplant. The study, in the journal Developmental Cell, focuses on a type of white...