Scientists at the Gladstone Institutes and UCSF have made an important breakthrough: they have discovered a way to transform skin cells into mature, fully functioning liver cells that flourish.
February 23, 2014
February 20, 2014
Scientists at the UCSF-affiliated Gladstone Institutes have devised a new method that allows for the more efficient and complete reprogramming of skin cells into cells that are virtually indistinguishable from heart muscle cells.
February 06, 2014
Scientists, harnessing the power of regenerative medicine, have developed a technique in animal models that could replenish the cells destroyed by type 1 diabetes.
February 04, 2014
Researchers are harnessing the power of the body's natural defenses to fight deadly cancers, and the treatment appears to be powerful, effective and long-lasting.
January 09, 2014
Scientists have discovered a type of RNA that could have enormous potential for better diagnosing and treating many types of cancer, Alzheimer's, multiple sclerosis and other diseases.
January 07, 2014
Scientists at the UCSF-affiliated Gladstone Institutes have discovered how the interplay between two proteins in the brain fuels the degradation and death of the class of brain cells, or neurons, that leads to Parkinson’s.
January 02, 2014
In a finding that directly contradicts the standard biological model of animal cell communication, UCSF scientists have discovered that typical cells in animals have the ability to transmit and receive biological signals by making physical contact with each other, even at long distance.
December 04, 2013
In a technical tour de force, UCSF scientists have determined, at near-atomic resolution, the structure of a protein that plays a central role in the perception of pain and heat.
November 20, 2013
The protein in cells that most often drives the development of cancers has eluded scientists’ efforts to block it for three decades — until now.
November 11, 2013
Researchers at the UCSF-affiliated Gladstone Institutes have discovered how the activation of specific stretches of DNA control the development of uniquely human characteristics.