Switch Triggers Cancer-Like Response in Stem Cells |
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October 17, 2008 • Forsyth InstituteNIGMS-funded researchers have shown that electrical signals are a powerful control mechanism for modulating embryonic stem cell behavior. |
How DNA Replication Works As Stem Cells Differentiate |
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October 13, 2008 • Florida State UniversityNIGMS-funded researchers have tracked how DNA copying gets reorganized as embryonic stem cells become specialized. |
Human Skin Cells Reprogrammed To Produce Insulin |
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September 17, 2008 • University of North CarolinaNIGMS-funded researchers transformed human skin cells into pluripotent stem cells and then to cells that can make the hormone insulin. |
Newly Discovered Genes Regulate Stem Cell Function |
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September 17, 2008 • Forsyth InstituteNIGMS-funded researchers have discovered genes in planaria flatworms that are also used in mammalian stem cell regulatory pathways. |
DNA "Tattoos" Mark Stem Cells in Planarians |
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September 11, 2008 • University of UtahNIGMS-funded researchers have used synthetic molecules to mark the DNA of planarians, a kind of regenerating worm that could serve as a model for stem cell biology. |
Ronin Keeps ES Cells' Potential |
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June 27, 2008 • Baylor College of MedicineResearchers funded in part by NIH have discovered a protein they named Ronin that keeps embryonic stem cells undifferentiated. |
Controlling Embryonic Fate by Association |
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May 4, 2008 • Baylor College of MedicineAn NIGMS-funded study explored how two critical embryonic cell proteins help maintain stem cells in their flexible state. |
Stem Cell Advance Tops 2007 Lists |
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December 20, 2007 • National Institute of General Medical SciencesA stem cell research breakthrough partially supported by NIGMS is tops on two lists of science advances made during 2007. |
Scientists Guide Human Skin Cells to Embryonic State |
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November 20, 2007 • University of Wisconsin, MadisonNIGMS-funded researchers report the genetic reprogramming of human skin cells to create cells indistinguishable from embryonic stem cells, an accomplishment that should speed up stem cell research and remove ethical and legal constraints to their use. |
Stem Cells Used to Treat Disease in Mice |
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March 11, 2007 • Burnham InstituteNIGMS-funded researchers have successfully used human embryonic stem cells to treat mice with a neurodegenerative disease related to Tay-Sachs, a lethal genetic disorder. |
A Peek Under the Hood of Embryonic Stem Cells |
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April 20, 2006 • Broad InstituteA research team supported by NIGMS has discovered specific DNA molecular imprints in mouse embryonic stem cells. The findings could shed light on the unique ability of these cells to develop into virtually any cell type in the body. |
Mapping the Foundation of Human Development |
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April 20, 2006 • Whitehead Institute for Biomedical ResearchEmbryonic stem cells may one day provide a means to treat disease, but according to new reports, they are already revealing remarkable insights into the mysteries of how humans develop. |
Scientists Develop Cocktail for Growing Human Embryonic Stem Cells |
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March 27, 2006 • Yale UniversityResearchers supported by NIGMS have established the minimal nutritional requirements for growing and maintaining human embryonic stem cells, a recipe that is critical for clinical application and for developmental studies. |
Cell Fate Determination Mechanism Uncovered |
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February 24, 2006 • University of California, RiversideNIGMS-supported researchers have discovered a molecular mechanism that directs the fate and function of cells during animal development. The findings hold promise for the advancement of cancer and stem-cell research. |
New Stem Cell Lines Grown Free of Animal Cells |
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January 1, 2006 • University of Wisconsin, MadisonNIGMS-supported scientists have developed a precisely defined stem cell culture system free of animal cells. The new work helps move stem cells a small step closer to clinical applications by completely ridding the growth medium of animal products that could harbor viruses or other deleterious agents. |
Researchers Find Key to Stem Cells' Remarkable Potential |
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September 8, 2005 • Whitehead Institute for Biomedical ResearchNIGMS-supported researchers have shed light on one of the most tantalizing characteristics of embryonic stem cells: their ability to become just about any cell type in the body.
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Genes Involved in Blood Cell Development Identified |
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July 5, 2005 • University of MinnesotaNIGMS-supported researchers have identified a group of genes that are involved the development blood precursor cells, a discovery that brings researchers a step closer to harnessing the power of stem cells for disease treatments. |
Discovery Suggests Why Stem Cells Keep on Dividing |
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June 14, 2005 • Northwestern UniversityWhy do stem cells continue to divide and renew themselves long after the point where other cells stop? NIGMS-funded researchers now suggest that tiny bits of genetic material called microRNAs shut off the signals that end cell division in most other cells. |
Infants with Rare Genetic Disease Saved by Cord Blood Stem Cells |
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May 18, 2005 • Duke UniversityChildren with a fatal genetic disorder called Krabbe Disease can be saved and their brain development preserved if they receive stem cells from umbilical cord blood before symptoms develop, according to a new NIGMS-funded study. |
Stem Cells and Regeneration: Opening Up a New Can of Worms |
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May 2, 2005 • University of UtahPlanarian worms are famous in the scientific world for their extraordinary ability to regenerate body parts after injury, a process that depends on adult stem cells called neoblasts. A new NIGMS-supported study provides insight into how individual genes control regeneration. |
Tiny Flies Could Lead to Understanding Potential for Non-Embryonic Stem Cells |
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February 28, 2005 • University of Washington It has long been thought that cells that regenerate tissue do so by regressing to a developmentally younger state. Now NIGMS-supported researchers have demonstrated that cells can regenerate without becoming "younger." |
Stem Cells Cultured Without Key Animal Starter Cells |
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February 17, 2005 • University of Wisconsin, Madison NIGMS-supported-scientists have crafted a recipe that allows researchers to grow human embryonic stem cells in the absence of mouse-derived "feeder" cells, long thought to be a source of potential contamination for the therapeutically promising cells. |
Local Environment Directly Influences Adult Stem Cell Numbers |
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January 25, 2005 • University of TexasUsing the common fruit fly, NIGMS-supported researchers have discovered that an intricate set of signals released by stem cells' surroundings governs their maintenance. |
Researchers Find Contamination in Human Embryonic Stem Cell Lines |
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January 23, 2005 • University of California, San DiegoCurrently available lines of human embryonic stem cells are contaminated with a non-human molecule that compromises their potential therapeutic use in human subjects, according to research by NIGMS-supported investigators. |