Program Type: Infrastructure

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The Berkeley Human Embryonic Stem Cell Shared Research Laboratory

Investigators from three major regional research and clinical institutions have instituted a stem cell research center. Numerous collaborations among our community of investigators have successfully utilized both Federal registry and non-registry human embryonic stem cell (hESC) lines in the center; however, the available resources for the culture and maintenance of these lines place inherent limitations […]

The Stanford University Center for Human Embryonic Stem Cell Research and Education

The goal of this proposal is to establish a premiere center for human embryonic stem cell (hESC) research and education in the state of California. Our center builds on the established excellence of faculty with research organized into four thematic areas: Human embryology, derivation of hESC lines, including disease-specific lines, and SCNT, Cell fate specification […]

The Gladstone CIRM Shared Human Embryonic Stem Cell Core Laboratory

The CIRM Shared Human Embryonic Stem Cell Core Laboratory will provide shared research facilities for use by California scientists. This laboratory will be hosted by a research institution focused on basic research into three of the most important medical problems of modern times: cardiovascular disease, AIDS, and neurodegenerative disorders. Each of these research areas addresses […]

Collaborative Laboratory for Human Embryonic Stem Cell Research at Sanford-Burnham Medical Research Institute

We are proposing to expand our “safe haven” human embryonic stem cell laboratory to accommodate the enormous interest in scientific research in this field, and to provide an environment that is conducive to the goals of the CIRM’s Strategic Plan. Our collaborative Shared Laboratory will support the research of all of our institution’s many stem […]

A Stem Cell Core Facility for Studying Human Embryonic Stem Cell Differentiation

This application proposes to develop a Stem Cell Core Facility of ~1700 square feet to support the use of human embryonic stem cells (hESC) for a growing consortium of stem cell scientists at the home institution as well as neighboring institutions. The facility will be built and managed so as to allow use of non-NIH-approved […]

The Childrens Hospital of Los Angeles hESC Facility

Our institution is a tertiary-care academic pediatric medical center that combines care of severely ill children, research into the causes and treatments of childhood disorders, and training of the next generation of pediatric clinical physicians, nurses and allied health care professionals and biomedical scientists. A unique focus of the research in our institution is on […]

UCSC Shared Stem Cell Facility

We have assembled a team of researchers with the aim of elucidating the molecular and cellular mechanisms that regulate stem cell self renewal and differentiation. Drawing on their broad range of expertise in development, genetics, genomics, molecular, cell and computational biology, these researchers will use interdisciplinary approaches to tackle problems concerning how genes are regulated […]

UC Davis Translational Human Embryonic Stem Cell Shared Research Facility

The intent of the proposed shared research facility is to provide a state-wide resource for qualified scientists in California to study human embryonic stem cells (hESC) without federal restrictions. The shared facility will encourage a spirit of collaboration and include laboratories for investigators to culture, collect, store, and analyze hESC, provide necessary services that will […]

CIRM Shared Research Laboratories

Our plan is to establish a ~ 4,700 sq. ft. shared research laboratory dedicated to the experimental manipulation and ultimate clinical application of human embryonic stem cells (hESC). This Shared Research Laboratory (SRL) is centrally located on the main campus. The SRL will be used by researchers focused on understanding how hESCs are induced to […]

TSRI Center for hESC Research

The therapeutic use of stem cells in regenerative medicine will require the ability to control stem cell expansion and differentiation into specific tissue types, such as pancreatic ?-cells, heart tissue, bone or specific neuronal lineages. We have taken a chemical approach toward this problem in which large collections of synthetic small molecules are being screened […]