|
University of California, Davis |
Alice Tarantal |
Shared Labs |
Translational Human Embryonic Stem Cell Shared Research Facility |
$3,709,631 |
|
University of California, Berkeley |
David Schaffer |
Shared Labs |
Human Embryonic Stem Cell Shared Research Laboratory |
$2,929,237 |
|
University of California, Riverside |
Prudence Talbot |
Shared Labs |
A Stem Cell Core Facility for Studying Human Embryonic Stem Cell Differentiation |
$3,658,353 |
|
Sanford-Burnham Medical Research Institute |
Evan Snyder |
Shared Labs |
Collaborative Laboratory for Human Embryonic Stem Cell Research |
$4,762,725 |
|
Scripps Research Institute |
Jeanne Loring |
Shared Labs |
Center for hESC Research |
$3,828,751 |
|
Stanford University |
Renee Reijo Pera |
Shared Labs |
Center for Human Embryonic Stem Cell Research and Education |
$5,819,047 |
|
University of California, San Diego |
Karl Willert |
Shared Labs |
Enhancing Facilities for Genetic Manipulation and Engineering of Human Embryonic Stem Cells |
$3,711,102 |
|
Buck Institute for Age Research |
Xianmin Zeng |
Shared Labs |
CIRM Shared Research Laboratory for Stem Cells and Aging |
$5,883,026 |
|
The J. David Gladstone Institutes |
Deepak Srivastava |
Shared Labs |
CIRM Shared Human Embryonic Stem Cell Core Laboratory |
$2,621,345 |
|
University of California, Santa Cruz |
Lindsay Hinck |
Shared Labs |
Shared Stem Cell Facility |
$3,588,740 |
|
University of California, Los Angeles |
Owen Witte |
Shared Labs |
CIRM Shared Research Laboratories |
$3,740,497 |
|
The Salk Institute for Biological Studies |
Inder Verma |
Shared Labs |
Shared viral vector facility for genetic manipulation of human ES cell |
$4,316,515 |
|
University of California, Irvine |
Peter Donovan |
Shared Labs |
Regional Human Embryonic Stem Cell Shared Research Laboratory and Stem Cell Techniques Course |
$5,572,979 |
|
University of California, San Francisco |
Barbara Panning |
Basic Biology IV |
Investigation of the role of O-GlcNAcylation in SOX2 function during reprogramming |
$1,285,214 |
|
University of California, Berkeley |
Robert Tjian |
Basic Biology IV |
Transcriptional regulation of pluripotency in human embryonic stem cells |
$1,220,968 |
|
Stanford University |
Anne Brunet |
Basic Biology IV |
Energy metabolism and aging pathways in human stem cell reprogramming and differentiation |
$1,414,044 |
|
Stanford University |
Michael Cleary |
Basic Biology IV |
Prostaglandin pathway regulation of self-renwal in hematopoietic and leukemia stem cells |
$1,244,455 |
|
University of California, Davis |
Deborah Lieu |
Basic Biology IV |
Induction of Pluripotent Stem Cell-Derived Pacemaking Cells |
$1,334,880 |
|
University of California, San Francisco |
Miguel Ramalho-Santos |
Basic Biology IV |
Genetic dissection of human cellular reprogramming to pluripotency |
$1,184,883 |
|
Buck Institute for Age Research |
Deepak Lamba |
Basic Biology IV |
3D Modeling of Retina using Polymer Scaffolds for Understanding Disease Pathogenesis |
$1,526,319 |
|
University of California, San Francisco |
Jeremy Reiter |
Basic Biology IV |
Modeling disease in human embryonic stem cells using new genetic tools |
$1,387,800 |
|
Stanford University |
Alexander Dunn |
Basic Biology IV |
Role of mechanical signaling in stem cell self-renewal and differentiation |
$1,064,224 |
|
University of California, San Diego |
George Sen |
Basic Biology IV |
Regulation of Epidermal Self-Renewal and Differentiation by Histone and DNA Demethylases.
|
$1,080,000 |
|
Beckman Research Institute of City of Hope |
Yanhong Shi |
Basic Biology IV |
Modeling Alexander disease using patient-specific induced pluripotent stem cells |
$1,367,172 |
|
University of California, Los Angeles |
Kathrin Plath |
Basic Biology IV |
Understanding the status of the X chromosomes in human ESCs and preimplantation embryos |
$1,382,400 |
|
University of California, San Diego |
Maike Sander |
Basic Biology IV |
Deciphering transcriptional control of pancreatic beta-cell maturation in vitro |
$1,391,400 |
|
The J. David Gladstone Institutes |
Sheng Ding |
Basic Biology IV |
A new paradigm of lineage-specific reprogramming |
$1,708,560 |
|
Sanford-Burnham Medical Research Institute |
Huei-sheng Chen |
Basic Biology IV |
Studying Arrhythmogenic Right Ventricular Dysplasia with patient-specific iPS cells |
$1,582,606 |
|
University of California, Los Angeles |
Owen Witte |
Basic Biology IV |
Trop2 dependent and independent mechanisms of self-renewal in human cancer stem cells |
$1,382,400 |
|
Stanford University |
Howard Chang |
Basic Biology IV |
Long noncoding RNAs for pluripotency and cell fate commitment |
$1,386,627 |
|
University of California, San Diego |
David Traver |
Basic Biology IV |
DECIPHERING THE INSTRUCTIONS FOR VERTEBRATE HSC SPECIFICATION AND AMPLIFICATION. |
$1,363,698 |
|
The J. David Gladstone Institutes |
Steven Finkbeiner |
Basic Biology IV |
Common molecular mechanisms in neurodegenerative diseases using patient based iPSC neurons |
$1,506,420 |
|
Stanford University |
Michelle Monje |
Basic Biology IV |
Stem Cell Mechanisms Governing Discrete Waves of Gliogenesis in the Childhood Brain |
$1,264,248 |
|
The J. David Gladstone Institutes |
Benoit Bruneau |
Basic Biology IV |
Epigenetic regulation of human cardiac differentiation |
$1,708,560 |
|
Cedars-Sinai Medical Center |
Eduardo Marbán |
Basic Biology IV |
Mechanism of heart regeneration by cardiosphere-derived cells |
$1,367,604 |
|
University of California, San Diego |
Miles Wilkinson |
Basic Biology IV |
Role of the NMD RNA Decay Pathway in Maintaining the Stem-Like State |
$1,360,450 |
|
Stanford University |
Ben Barres |
Basic Biology IV |
Phenotyping Human Astrocytes in Health and Disease |
$1,385,517 |
|
Stanford University |
Gerald Crabtree |
Basic Biology IV |
Mechanism and Utility of Direct Neuronal Conversion with a MicroRNA-Chromatin Switch |
$1,392,426 |
|
University of California, San Diego |
Ananda Goldrath |
Basic Biology IV |
Mechanisms to protect hESC-derived cells from allogenic immune rejection |
$1,161,000 |
|
Stanford University |
Roel Nusse |
Basic Biology IV |
Asymmetric stem cell division oriented by a local self-renewing signal |
$1,195,811 |
|
University of California, San Diego |
Eugene Yeo |
Basic Biology IV |
Stem cell models to analyze the role of mutated C9ORF72 in neurodegeneration |
$1,393,200 |
|
University of California, San Francisco |
Miguel Ramalho-Santos |
New Cell Lines |
Somatic cell age and memory in the generation of iPS cells |
$1,307,201 |
|
Sanford-Burnham Medical Research Institute |
Zhuohua Zhang |
SEED Grant |
Modeling Parkinson's Disease Using Human Embryonic Stem Cells |
$758,999 |
|
University of California, Riverside |
Frank Sauer |
SEED Grant |
Non-coding RNA as tool for the active control of stem cell differentiation |
$595,469 |
|
Stanford University |
Renee Reijo Pera |
New Cell Lines |
Derivation and comparative analysis of human pluripotent ESCs, iPSCs and SSCs: Convergence to an embryonic phenotype |
$1,410,042 |
|
University of Southern California |
Martin Pera |
New Cell Lines |
New Technology ForThe Derivation of Human Pluripotent Stem Cell Lines For Clinical Use |
$1,387,508 |
|
University of California, San Francisco |
Holger Willenbring |
SEED Grant |
Induction of pluripotency in fibroblasts by fusion with enucleated human embryonic stem cell syncytia |
$342,962 |
|
The J. David Gladstone Institutes |
Sheng Ding |
New Cell Lines |
Derivation of New ICM-stage hESCs |
$1,719,468 |
|
University of California, Davis |
Ebenezer Yamoah |
SEED Grant |
Hair Cells and Spiral Ganglion Neuron Differentiation from Human Embryonic Stem Cells |
$469,327 |
|
University of California, San Diego |
Binhai Zheng |
SEED Grant |
Genetic manipulation of human embryonic stem cells and its application in studying CNS development and repair |
$642,361 |
|
University of California, Irvine |
Kyoko Yokomori |
SEED Grant |
Derivation and characterization of human ES cells from FSHD embryos |
$632,500 |
|
University of California, Berkeley |
Carolyn Bertozzi |
SEED Grant |
Profiling surface glycans and glycoprotein expression of human embryonic stem cells |
$498,409 |
|
Stanford University |
Kenneth Weinberg |
SEED Grant |
Embryonic stem cell-derived thymic epithelial cells |
$658,057 |
|
Stanford University |
Joseph Wu |
SEED Grant |
In Vivo Imaging of Human Embryonic Stem Cell Derivatives and Tumorigenicity |
$658,123 |
|
The J. David Gladstone Institutes |
Fen-Biao Gao |
SEED Grant |
MicroRNAs in Human Stem Cell Differentiation and Mental Disorders |
$791,000 |
|
Stanford University |
Joanna Wysocka |
SEED Grant |
Role of Chromatin Modifiers in Regulating Human Embryonic Stem Cell Pluripotency |
$658,126 |
|
University of California, Los Angeles |
Noriyuki Kasahara |
SEED Grant |
Down-Regulation of Alloreactive Immune Responses to hES Cell-Derived Graft Tissues |
$469,219 |
|
University of California, Irvine |
Leslie Thompson |
New Cell Lines |
New Cell Lines for Huntington's Disease |
$1,369,800 |
|
University of California, San Francisco |
Heike Daldrup-Link |
SEED Grant |
Labeling of human embryonic stem cells with iron oxide nanoparticles and fluorescent dyes for a non-invasive cell depiction with MR imaging and optical imaging |
$251,088 |
|
University of California, Los Angeles |
Zack Jerome |
New Cell Lines |
Generation of clinical grade human iPS cells |
$1,382,400 |
|
Stanford University |
Phillip Yang |
SEED Grant |
In Vivo Molecular Magnetic Resonance Imaging of Human Embryonic Stem Cells in Murine Model of Myocardial Infarction |
$658,125 |
|
University of California, Irvine |
Vincent Procaccio |
SEED Grant |
Mitochondrial Dysfunction in Embryonic Stem Cells |
$632,500 |
|
Sanford-Burnham Medical Research Institute |
Zhuohua Zhang |
New Cell Lines |
Derivation of Parkinson's Disease Coded-Stem Cells (PD-SCs) |
$1,589,760 |
|
University of California, Los Angeles |
Hanna Mikkola |
SEED Grant |
Improving microenvironments to promote hematopoietic stem cell development from human embryonic stem cells |
$577,037 |
|
University of California, Davis |
A. Reddi |
SEED Grant |
hESCs for Articular Cartilage Regeneration |
$367,650 |
|
Stanford University |
Julie Baker |
New Cell Lines |
Derivation of hESC Lines with Disease Lesions |
$1,424,412 |
|
University of California, Irvine |
Brian Cummings |
SEED Grant |
The Immunological Niche: Effect of immunosuppressant drugs on stem cell proliferation, gene expression, and differentiation in a model of spinal cord injury. |
$619,223 |
|
Beckman Research Institute of City of Hope |
Timothy O'Connor |
SEED Grant |
Sources of Genetic Instability in Human Embryonic Stem Cells. |
$357,978 |
|
University of California, Irvine |
Grant MacGregor |
SEED Grant |
Production of Oocytes from Human ES Cells |
$623,781 |
|
Stanford University |
Michele Calos |
New Cell Lines |
Safe, efficient creation of human induced pluripotent stem cells without the use of retroviruses |
$1,406,875 |
|
University of California, San Francisco |
Miguel Ramalho-Santos |
SEED Grant |
Transcriptional Regulation of Human Embryonic Stem Cells |
$618,901 |
|
University of California, Los Angeles |
Amander Clark |
New Cell Lines |
Generation of Pluripotent Cell Lines from Human Embryos |
$1,177,648 |
|
University of Southern California |
Qilong Ying |
SEED Grant |
Self-renewal of human embryonic stem cells |
$663,209 |
|
The J. David Gladstone Institutes |
Bruce Conklin |
New Cell Lines |
Induced Pluripotent Stem Cells for Cardiovascular Diagnostics |
$1,708,560 |
|
University of California, San Francisco |
Thea Tlsty |
SEED Grant |
Role of the tumor suppressor gene, p16INK4a, in regulating stem cell phenotypes in embryonic stem cells and human epithelial cells. |
$639,150 |
|
University of California, San Diego |
Steve Dowdy |
New Cell Lines |
Protein transduction of transcription factors: a non-genetic approach to generate new pluripotent cell lines from human skin. |
$1,387,800 |
|
University of California, Irvine |
Charles Limoli |
SEED Grant |
Using human embryonic stem cells to treat radiation-induced stem cell loss: Benefits vs cancer risk |
$625,617 |
|
University of California, San Francisco |
Valerie Weaver |
SEED Grant |
Force, Dimensionality and Stem Cell Fate |
$561,082 |
|
University of California, San Francisco |
Susan Fisher |
New Cell Lines |
Optimization of Human Embryonic Stem Cell Derivation Techniques and Production/Distribution of GMP-Grade Lines |
$1,383,419 |
|
Sanford-Burnham Medical Research Institute |
Alexey Terskikh |
SEED Grant |
Analysis of Candidate Neural Crest Cells Derived from Human ES Cells |
$759,000 |
|
The J. David Gladstone Institutes |
Robert Farese |
New Cell Lines |
Establishment of Frontotemporal Dementia Patient-Specific Induced Pluripotent Stem (iPS) Cell Lines with Defined Genetic Mutations |
$1,708,560 |
|
The Salk Institute for Biological Studies |
Fred Gage |
New Cell Lines |
Development of Induced Pluripotent Stem Cells for Modeling Human Disease |
$1,737,720 |
|
Stanford University |
Aaron Hsueh |
SEED Grant |
Patient-specific cells with nuclear transfer |
$656,074 |
|
University of California, San Francisco |
Long-cheng Li |
New Cell Lines |
Induction of pluripotent stem cells by small RNA-guided transcriptional activation |
$1,375,144 |
|
University of Southern California |
Peter Laird |
SEED Grant |
Screening for Oncogenic Epigenetic Alterations in Human ES Cells |
$685,000 |
|
Stanford University |
Michael Longaker |
New Cell Lines |
Derivation and analysis of pluripotent stem cell lines with inherited TGF-b mediated disorders from donated IVF embryos and reprogrammed adult skin fibroblasts |
$1,424,412 |
|
University of California, Irvine |
Thomas Lane |
SEED Grant |
Human Embryonic Stem Cells and Remyelination in a Viral Model of Demyelination |
$425,594 |
|
University of California, San Diego |
Cornelis Murre |
SEED Grant |
Generation of long-term cultures of human hematopoietic multipotent progenitors from embryonic stem cells |
$538,211 |
|
Sanford-Burnham Medical Research Institute |
Robert Oshima |
SEED Grant |
Trophoblast differentiation of human ES cells. |
$748,240 |
|
The Salk Institute for Biological Studies |
Samuel Pfaff |
SEED Grant |
Gene regulatory mechanisms that control spinal neuron differentiation from hES cells. |
$807,749 |
|
University of California, San Francisco |
Didier Stainier |
SEED Grant |
Endodermal differentiation of human ES cells |
$635,242 |
|
University of California, Los Angeles |
Michael Teitell |
SEED Grant |
Role of Mitochondria in Self-Renewal Versus Differentiation of Human Embryonic Stem Cells |
$635,024 |
|
Stanford University |
Julien Sage |
SEED Grant |
Functions of RB family proteins in human embryonic stem cells |
$520,777 |
|
Scripps Research Institute |
Peter Schultz |
SEED Grant |
A Chemical Approach to Stem Cell Biology |
$784,900 |
|
University of California, Riverside |
Michael Pirrung |
SEED Grant |
Stem Cell Survival and Differentiation Through Chemical Genetics |
$543,987 |
|
Ludwig Institute for Cancer Research |
Bing Ren |
SEED Grant |
Mapping the transcriptional regulatory elements in the genome of hESC |
$691,489 |
|
University of California, Berkeley |
Ellen Robey |
SEED Grant |
In Vitro Differentiation of T cells from Human Embryonic Stem Cells. |
$499,999 |
|
The J. David Gladstone Institutes |
Eric Verdin |
SEED Grant |
Role of HDAC in human stem cells pluripotentiality and differentiation |
$790,999 |
|
University of California, Irvine |
Michelle Khine |
SEED Grant |
Micro Platform for Controlled Cardiac Myocyte Differentiation |
$363,707 |
|
University of Southern California |
Wange Lu |
SEED Grant |
Regulation of human neural progenitor cell proliferation by Ryk-mediated Wnt signaling |
$668,987 |
