Researchers at the The Scripps Research Institute found a new way of classifying the many cell types that fall under the category of “stem cells.” The term stem cell refers to tissue specific stem cells found in mature tissues such as blood, brain, or muscle, which are restricted to forming only cells found in those tissues, as well as to embryonic stem cells that are broadly able to form all cells of the body. The term is also used to refer to the so-called induced pluripotent stem (iPS) cells that scientists can now create out of adult skin cell and that mimic embryonic stem cells in their ability to form a variety of cell types. In this work, the researchers discovered a set of genes that are always active in the pluripotent cells – whether they were iPS cells or embryonic stem cells. As more stem cell populations become available, the gene profile discovered in this study will help researchers distinguish those cells that are truly pluripotent from those that are more restricted in the cell types they are able to form.
Nature: September 18, 2008
CIRM funding: Louise Laurent (T1-00003)
Related Information: Scripps news story, The Scripps Research Institute
Showing posts with label Laurent. Show all posts
Showing posts with label Laurent. Show all posts
Thursday, September 18, 2008
Thursday, April 10, 2008
Pattern of Small Genetic Factors Found to Characterize Embryonic Stem Cells
Researchers at The Scripps Research Institute discovered that human embryonic stem cells have a very specific signature when it comes to the regulators of their genes. MicroRNAs are very small, naturally occurring bits of genetic material. They don't code for specific proteins like genes do, but they regulate the activity of genes and turn on and off their protein production. In embryonic stem cells microRNAs are actively preventing the production of proteins that tell cells to differentiate into specific heart or bone tissue, for example, but are pushing hard on genes that result in self-renewal. The team hopes to use these microRNAs to reprogram any type of cell to become as pluripotent as embryonic stem cells and to do it more safely than current reprogramming called iPS.
Stem Cells: June, 2008
CIRM funding: Louise Laurent (T1-00003)
Related Information: Press release , The Scripps Research Institute
Stem Cells: June, 2008
CIRM funding: Louise Laurent (T1-00003)
Related Information: Press release , The Scripps Research Institute
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