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Controlling DNA Repair
Scientists discover that DNA repair outcomes following CRISPR-Cas9 cleaving are non-random and can be harnessed to produce desired effects.
Gene Therapy Via Ultrasound
Research into a gene therapy approach called sonoporation could help combat heart disease and cancer.
Stem Cell Therapy Heals Injured Mouse Brain
A team of researchers has developed a therapeutic technique that dramatically increases the production of nerve cells in mice with stroke-induced brain damage.
Challenging Stem Cell Fate Control
Researchers have found that the fate of stem cells is not only controlled by their local niche, but also by a cell-intrinsic mechanism.
Zika Proteins Responsible for Microcephaly Identified
Researchers have undertaken the first study to examine Zika infection in human neural stem cells from second-trimester fetuses.
Heart Muscle from Stem Cells Aid Cardiovascular Medicine
Researchers discover heart muscle cells from stem cells mirror expression patterns of key genes in donor tissue.
Examining New Hypotheses for Undiagnosed Patients
UnDx Consortium gathers in San Diego to create new paths to identifying currently undiagnosed illnesses.
Novel Therapeutic Approach for Blood Disorders
Gene editing of human blood-forming stem cells mimics a benign genetic condition that helps to overcome sickle cell disease and other blood disorders.
Bone Marrow Transplants Without Using Chemotherapy
Scientists have devised a way to destroy blood stem cells in mice without using chemotherapy or radiotherapy, both of which have toxic side effects.
How Cloud Connectivity Can Combat the Reproducibility Crisis
This infographic explains the reproducibility crisis, and how cloud connectivity can help overcome this problem.
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Regenerative Medicine
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Stem Cell Resources

Human embryonic stem (ES) cells capture the imagination because they are immortal and have an almost unlimited developmental potential. After many months of growth in culture dishes, these remarkable cells maintain the ability to form cells ranging from muscle to nerve to blood — potentially any cell type that makes up the body. The proliferative and developmental potential of human ES cells promises an essentially unlimited supply of specific cell types for basic research and for transplantation therapies for diseases ranging from heart disease to Parkinson’s disease to leukemia. Here we discuss the origin and properties of human ES cells, their implications for basic research and human medicine, and recent research progress since August 2001, when President George W. Bush allowed federal funding of this research for the first time.

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