All CIRM-Funded Grants
| RFA |
PI |
Grant Title |
| Buck Institute for Age Research |
| SEED |
Dale Bredesen |
Programmed Cell Death Pathways Activated in Embryonic Stem Cells |
| Shared Labs |
Xianmin Zeng |
CIRM Shared Research Laboratory for Stem Cells and Aging |
| Major Facilities |
|
CIRM Centers of Excellence |
| Disease Team Planning |
Xianmin Zeng |
Develop a cell replacement therapy for Parkinson's disease using human embryonic stem cells |
| Burnham Institute for Medical Research |
| Training |
Mark
Mercola |
Burnham Institute for
Medical Research CIRM Stem Cell Training Grant
(Type I) |
| SEED |
Huei-Sheng,
Vincent Chen |
Development of
Neuro-Coupled Human Embryonic Stem Cell-Derived
Cardiac Pacemaker Cells. |
| SEED |
Gregg
Duester |
Retinoic Acid-FGF
Antagonism during Motor Neuron Differentiation of
Human ES Cells |
| SEED |
Hudson
Freeze |
Role of Glycans in
Human Embryonic Stem Cell Conversion to Neural
Precursor Cells |
| SEED |
Ziwei
Huang |
New Chemokine-Derived
Therapeutics Targeting Stem Cell Migration |
| SEED |
Robert
Oshima |
Trophoblast
differentiation of human ES cells. |
| SEED |
Zhuohua
Zhang |
Modeling Parkinson's
Disease Using Human Embryonic Stem Cells |
| SEED |
Alexey
Terskikh |
Analysis of Candidate
Neural Crest Cells Derived from Human ES Cells |
| Comprehensive |
Stuart Lipton |
MEF2C-Directed
Neurogenesis From Human Embryonic Stem Cells |
| Comprehensive |
Mark Mercola |
Chemical Genetic
Approach to Production of hESC-derived
Cardiomyocytes |
| Shared Labs |
Evan Snyder |
Collaborative Laboratory For Human Embryonic Stem Cell Research |
| Disease Team Planning |
Mark
Mercola |
Stem Cell Therapies
for Heart Failure |
| New Cell Lines |
Zhuohua
Zhan |
Derivation of
Parkinson's Disease Coded-Stem Cells (PD-SCs) |
| California Institute of Technology |
| Training |
Paul
Patterson |
Training in Stem Cell Biology at Caltech |
| Ceders-Sinai
Medical Center |
| Disease Team
Planning |
Eduardo
Marban |
Heart Disease
Regenerative Medicine Team Planning Award |
| Childrens
Hospital Los Angeles |
| Training |
Donald
Kohn |
Stem Cell Training
Grant |
| SEED |
Elizabeth
Lawlor |
hESC as tools to
investigate the neural crest origin of Ewing's
sarcoma |
| Comprehensive |
Gay Crooks |
Regulated Expansion
of Lympho-hematopoietic Stem and Progenitor Cells
from Human Embryonic Stem Cells (hESC) |
| Shared Labs |
Gay
Crooks |
hESC Facility |
| Disease Team
Planning |
Donald
Kohn |
Stem Cell Gene Therapy for Sickle Cell Disease. |
| New Faculty II |
Tracy Grikscheit |
Mechanism of Tissue Engineered Small Intestine Formation |
| Childrens Hospital Oakland Research Institute |
| Disease Team
Planning |
Mark
Walters |
CIRM Disease Team
Planning Award |
| City of Hope
National Medical Center |
| SEED |
Timothy
O'Connor |
Sources of Genetic
Instability in Human Embryonic Stem Cells. |
| New Faculty I |
Tiziano
Barberi |
Skeletal muscle
development from hESC and its in vivo applications
in animal models of muscular dystrophy |
| Disease Team
Planning |
Michael Barish |
Genetically-modified neural stem cells for treatment of high-grade glioma |
| The J. David
Gladstone Institutes |
| Training |
Robert
Mahley |
The J. David
Gladstone Institutes CIRM Scholar Program |
| SEED |
Warner
Greene |
The APOBEC3 Gene
Family as Guardians of Genome Stability in Human
Embryonic Stem Cells |
| SEED |
Eric
Verdin |
Role of HDAC in human
stem cells pluripotentiality and differentiation |
| SEED |
Fen-Biao
Gao |
MicroRNAs in Human
Stem Cell Differentiation and Mental Disorders |
| Comprehensive |
Deepak Srivastava |
microRNA Regulation
of Cardiomyocyte Differentiation from Human
Embryonic Stem Cells |
| Shared Labs |
Deepak
Srivastava |
CIRM Shared Human
Embryonic Stem Cell Core Laboratory |
| Disease Team
Planning |
Deepak Srivastava |
Pluripotent Stem
Cell–Based Therapy for Heart Disease |
| New Cell
Lines |
Bruce Conklin |
Induced Pluripotent
Stem Cells for Cardiovascular Diagnostics |
| New Cell
Lines |
Fen-Biao
Gao |
Establishment of
Frontotemporal Dementia Patient-Specific Induced
Pluripotent Stem (iPS) Cell Lines with Defined Genetic Mutations |
| New Faculty II |
Benoit Bruneau |
Induction of cardiogenesis in pluripotent cells via chromatin remodeling factors |
| New Faculty II |
Yadong Huang |
Defining the Isoform-Specific Effects of Apolipoprotein E on the Development of iPS Cells into Functional Neurons in Vitro and in Vivo |
| Human BioMolecular Research Institute |
| SEED |
John
Cashman |
Discovering Potent
Molecules with Human ESCs to Treat Heart Disease |
| Ludwig
Institute for Cancer Research |
| SEED |
Ren
Bing |
Mapping the
transcriptional regulatory elements in the genome
of hESC |
| Disease Team
Planning |
Webster
Cavenee |
Stem Cell-Mediated
Oncocidal Therapy of Primary & Metastatic
Brain Tumors |
| New Faculty II |
Bing Ren |
Mechanisms of chromatin dynamics at enhancers during ES cell differentiation |
| Novocell,
Inc. |
| Disease Team
Planning |
Emmanuel
Baetge |
Development of a Cell
Replacement Therapy Product for Insulin Dependent
Diabetes |
| The Salk
Institute for Biological Studies |
| Training |
Juan
Carlos Izpisua Belmonte |
Training in the
Biology of Human Embryonic Stem Cells and Emerging
Technologies |
| SEED |
Senyon
Choe |
A method to maintain
and propagate pluripotent human ES cells |
| SEED |
Beverly
Emerson |
Regulation of
Specific Chromosomal Boundary Elements by CTCF
Protein Complexes in Human Embryonic Stem Cells |
| SEED |
Samuel
Pfaff |
Gene regulatory
mechanisms that control spinal neuron
differentiation from hES cells. |
| Comprehensive |
Fred Gage |
Molecular and
Cellular Transitions from ES Cells to Mature
Functioning Human Neurons |
| Shared Labs |
Inder
Verma |
Shared viral vector
facility for genetic manipulation of human ES cell |
| New Faculty I |
Leanne
Jones |
Characterization of
mechanisms regulating de-differentiation and the
re-acquisition of stem cell identity |
| New Faculty I |
Lei
Wang |
Genetic Encoding
Novel Amino Acids in Embryonic Stem Cells for
Molecular Understanding of Differentiation to Dopamine Neurons |
| Disease Team
Planning |
Samuel
Pfaff |
Motor neuron
diseases: Finding cures through basic,
translational, and clinical collaboration |
| New Cell
Lines |
Fred
Gage |
Development of
Induced Pluripotent Stem Cells for Modeling Human
Disease |
| San Diego Consortium for Regenerative Medicine |
| Major Facilities |
|
CIRM Institute |
| San Diego University |
| New Faculty II |
Ricardo Zayas |
The molecular basis underlying adult neurogenesis during regeneration and tissue renewal |
| Scripps
Research Institute |
| Training |
Peter
Schultz |
Training Stem Cell
Researchers at the Chemistry-Biology Interface |
| SEED |
Peter
Schultz |
A Chemical Approach
to Stem Cell Biology |
| Shared Labs |
Sheng Ding |
Center for hESC
Research |
| New Faculty I |
Sheng
Ding |
Reprogramming of
human somatic cells back to pluripotent embryonic
stem cells |
| New Faculty I |
Kristin
Baldwin |
Generating
pluripotent cell lines from neurons. |
| Stanford
University |
| Training |
Michael
Longaker |
CIRM Training Program |
| SEED |
John
Cook |
EC regeneration in
cerebrovascular ischemia: role of NO |
| SEED |
Mark
Kay |
Novel vectors for
gene transfer into human ES cells |
| SEED |
Krishna Shenoy |
Technology for
hESC-Derived Cardiomyocyte Differentiation and
Optimization of Graft-Host Integration in Adult Myocardium |
| SEED |
Calvin
Kuo |
Differentiation of
Human Embryonic Stem Cells to Intestinal Fates |
| SEED |
Susan
McConnell |
Optimization
of guidance response in human embryonic stem cell
derived midbrain dopaminergic neurons in development and disease |
| SEED |
Julien
Sage |
Functions of RB
family proteins in human embryonic stem cells |
| SEED |
Thomas
Wandless |
Reprogramming
Differentiated Human Cells to a Pluripotent State |
| SEED |
Kenneth
Weinberg |
Embryonic stem
cell-derived thymic epithelial cells |
| SEED |
Joseph
Wu |
In Vivo Imaging of
Human Embryonic Stem Cell Derivatives and
Tumorigenicity |
| SEED |
Joanna
Wysocka |
Role of Chromatin
Modifiers in Regulating Human Embryonic Stem Cell
Pluripotency |
| SEED |
Phillip
Yang |
In Vivo Molecular
Magnetic Resonance Imaging of Human Embryonic Stem
Cells in Murine Model of Myocardial Infarction |
| SEED |
Seung
Kim |
Patient-specific
cells with nuclear transfer |
| Comprehensive |
Julie Baker |
Functional Genomic
Analysis of Chemically Defined Human Embryonic
Stem Cells |
| Comprehensive |
Stefan Heller |
Generation of inner
ear sensory cells from human ES cells toward a
cure for deafness |
| Comprehensive |
Roel Nusse |
Guiding the
developmental program of human embryonic stem
cells by isolated Wnt factors |
| Comprehensive |
Theo Palmer |
Immunology of neural
stem cell fate and function |
| Comprehensive |
Renee Reijo Pera |
Human oocyte
development for genetic, pharmacological and
reprogramming applications |
| Comprehensive |
Christopher Zarins |
Engineering a
Cardiovascular Tissue Graft from Human Embryonic
Stem Cells |
| Comprehensive |
Irving Weissman |
Prospective isolation
of hESC-derived hematopoietic and cardiomyocyte
stem cells |
| Shared Labs |
Renee
Reijo Pera |
Center for Human
Embryonic Stem Cell Research and Education |
| New Faculty I |
Anne
Brunet |
Molecular mechanisms
involved in adult neural stem cell maintenance |
| New Faculty I |
Howard
Chang |
Noncoding RNAs in
Cell Fate Determination |
| New Faculty I |
Karl
Deisseroth |
Bioengineering
technology for fast optical control of
differentiation and function in stem cells and stem cell progeny |
| New Faculty I |
Joanna
Wysocka |
Trithorax and
Polycomb methyltransferase complexes in cell fate
determination. |
| Major Facilities |
|
CIRM Institute |
| Disease Team
Planning |
Thomas Rando |
Stem Cell Therapy for
Muscular Dystrophy |
| Disease Team
Planning |
Robert Robbins |
Cardiovascular
Regenerative Team |
| New Cell
Lines |
Julie Baker |
Derivation of hESC
Lines with Disease Lesions |
| New Cell
Lines |
Michele
Calos |
Safe, efficient
creation of human induced pluripotent stem cells
without the use of retroviruses |
| New Cell Lines |
Michael
Longaker |
Derivation
and analysis of pluripotent stem cell lines with
inherited TGF-b mediated disorders from donated IVF embryos and reprogrammed
adult skin |
| New Cell Lines |
Renee
Reijo Pera |
Derivation and
comparative analysis of human pluripotent ESCs,
iPSCs and SSCs: Convergence to an embryonic phenotype |
| New Faculty II |
Ching-Pin Chang |
VEGF signaling in adventitial stem cells in vascular physiology and disease |
| University of
California, Berkeley |
| Training |
Randy
Schekman |
Human Stem Cell
Training at UC Berkeley |
| SEED |
Ellen
Robey |
In Vitro
Differentiation of T cells from Human Embryonic
Stem Cells. |
| SEED |
Carolyn
Bertozzi |
Profiling surface
glycans and glycoprotein expression of human
embryonic stem cells |
| Shared Labs |
Daid
Schaffer |
Human Embryonic Stem
Cell Shared Research Laboratory |
| New Faculty I |
Irina
Conboy |
Identification of
hESC-mediated molecular mechanism that positively
regulates the regenerative capacity of post-natal tissues |
| Major Facilities |
|
CIRM Centers of Excellence |
| New Faculty II |
Lin He |
The roles of non-coding RNAs in the self-renewal and differentiation of pluripotent stem cells |
| University of
California, Davis |
| Training |
Frederick
Meyers |
UC Davis Stem Cell
Training Program |
| SEED |
Ebenezer
Yamoah |
Hair Cells and Spiral
Ganglion Neuron Differentiation from Human
Embryonic Stem Cells |
| SEED |
Hari
Reddi |
hESCs for Articular
Cartilage Regeneration |
| Comprehensive |
Alice Tarantal |
Preclinical Model for
Labeling, Transplant, and In Vivo Imaging of
Differentiated Human Embryonic Stem Cells |
| Comprehensive |
Mark Zern |
An in vitro and in
vivo comparison among three different human
hepatic stem cell populations. |
| Shared Labs |
Alice
Tarantal |
Translational Human
Embryonic Stem Cell Shared Research Facility |
| New Faculty I |
Chong-Xian
Pan |
Combinatorial
Chemistry Approaches to Develop LIgands against
Leukemia Stem Cells |
| Major Facilities |
|
CIRM Institute |
| New Faculty II |
Paul Knoepfler |
Molecular mechanisms governing hESC and iPS cell self-renewal and pluripotency |
| University of
California, Irvine |
| Training |
Peter
Bryant |
Stem Cell Research
Training Grant |
| SEED |
Frank
LaFerla |
Development of human
ES cell lines as a model system for Alzheimer
disease drug discovery |
| SEED |
Brian
Cummings |
The Immunological
Niche: Effect of immunosuppressant drugs on stem
cell proliferation, gene expression, and differentiation in a model of spinal
cord injury. |
| SEED |
Thomas
Lane |
Human Embryonic Stem
Cells and Remyelination in a Viral Model of
Demyelination |
| SEED |
Charles
Limoli |
Using human embryonic
stem cells to treat radiation-induced stem cell
loss: Benefits vs cancer risk |
| SEED |
Grant
MacGregor |
Production of Oocytes
from Human ES Cells |
| SEED |
Vincent
Procaccio |
Mitochondrial
Dysfunction in Embryonic Stem Cells |
| SEED |
Kyoko
Yokomori |
Derivation and
characterization of human ES cells from FSHD
embryos |
| Comprehensive |
Peter Donovan |
Improved hES Cell
Growth and Differentiation |
| Comprehensive |
Hans Keirstead |
hESC-Derived Motor
Neurons For the Treatment of Cervical Spinal Cord
Injury |
| Comprehensive |
Douglas Wallace |
The Dangers of
Mitochondrial DNA Heteroplasmy in Stem Cells
Created by Therapeutic Cloning |
| Shared Labs |
Peter
Donovan |
Regional Human
Embryonic Stem Cell Shared Research Laboratory and
Stem Cell Techniques Course |
| New Faculty I |
Andrew
Putnam |
A Novel Engineered
Niche to Explore the Vasculogenic Potential of
Embryonic Stem Cells |
| Major Facilities |
|
CIRM Institute |
| Disease Team
Planning |
Henry Klassen |
Stem cells for
neuroprotection of photoreceptors in retinitis
pigmentosa |
| Disease Team
Planning |
Leslie Michels Thompson |
Huntington's Disease
Team |
| New Cell Lines |
Leslie Michels Thompson |
New Cell Lines for
Huntington's Disease |
| New Faculty II |
Edwin Monuki |
Mechanisms in Choroid Plexus Epithelial Development |
| University of
California, Los Angeles |
| Training |
Owen
Witte |
California Institute
for Regenerative Medicine (CIRM) Type I
Comprehensive Training Grant |
| SEED |
Irvin
Chen |
Genetic modification
of the human genome to resist HIV-1 infection
and/or disease progression |
| SEED |
Zoran
Galic |
Genetic Enhancement
of the Immune Response to Melanoma via
hESC-derived T cells |
| SEED |
Siavash
Kurdistani |
Cellular epigenetic
diversity as a blueprint for defining the identity
and functional potential of human embryonic stem cells |
| SEED |
William
Lowry |
Modeling
Human Embryonic Development with Human Embryonic
Stem Cells |
| SEED |
Michael
Teitell |
Role of Mitochondria
in Self-Renewal Versus Differentiation of Human
Embryonic Stem Cells |
| SEED |
Noriyuki
Kasahara |
Down-Regulation of
Alloreactive Immune Responses to hES Cell-Derived
Graft Tissues |
| SEED |
Hanna
Mikkola |
Improving
microenvironments to promote hematopoietic stem
cell development from human embryonic stem cells |
| Comprehensive |
Guoping Fan |
Epigenetic gene
regulation during the differentiation of human
embryonic stem cells: Impact on neural repair |
| Comprehensive |
Jerome Zack |
Human Embryonic Stem
Cell Therapeutic Strategies to Target HIV Disease |
| Shared Labs |
Owen
Witte |
CIRM Shared Research
Laboratories |
| New Faculty I |
Siavash
Kurdistani |
Epigenetics in cancer
stem cell initiation and clinical outcome
prediction |
| New Faculty I |
Hanna
Mikkola |
Mechanisms of
Hematopoietic stem cell Specification and
Self-Renewal |
| New Faculty I |
Kathrin
Plath |
In vitro
reprogramming of mouse and human somatic cells to
an embryonic state |
| Major Facilities |
|
CIRM Institute |
| Disease Team
Planning |
Stanley
Carmichael |
Development of a Stem
Cell Therapy to Promote Functional Recovery in
Stroke |
| Disease Team
Planning |
Irvin
S.Y. Chen |
Stem Cell Therapy for
AIDS- Disease Team Planning |
| New Cell
Lines |
Amander Clark |
Generation of
Pluripotent Cell Lines from Human Embryos |
| New Cell
Lines |
Jerome Zack |
Generation of
clinical grade human iPS cells |
| New Faculty II |
Brigitte Gomperts |
Stem Cells in Lung Cancer |
| New Faculty II |
Antoni Ribas |
Stem Cells for Immune System Regeneration to Fight Cancer |
| University of
California, Merced |
| SEED |
Michelle
Khine |
Micro Platform for
Controlled Cardiac Myocyte Differentiation |
| New Faculty I |
Jennifer
Manilay |
Enhancing
Survival of Embryonic Stem Cell-Derived Grafts by
Induction of Immunological Tolerance |
| Major Facilities |
|
CIRM Institute |
| New Faculty II |
Kara McCloskey |
Building Cardiac Tissue from Stem Cells and Natural Matrices |
| University of California, Riverside |
| SEED |
Michael
Pirrung |
Stem
Cell Survival and Differentiation Through Chemical
Genetics |
| SEED |
Frank
Sauer |
Non-coding RNA as
tool for the active control of stem cell
differentiation |
| Shared Labs |
Prudence
Talbot |
A Stem Cell Core
Facility for Studying Human Embryonic Stem Cell
Differentiation |
| New Faculty I |
Douglas
Ethell |
ES-Derived Cells for
the Treatment of Alzheimer’s Disease |
| University of
California, San Diego |
| Training |
Lawrence
Goldstein |
Interdisciplinary
Stem Cell Training Program at UCSD |
| SEED |
Shu
Chien |
Combinatorial
Platform for Optimizing Microenvironments to
Control hESC Fate |
| SEED |
Sylvia
Evans |
Specification of
Ventricular Myocyte and Pacemaker Lineages
Utilizing Human Embryonic Stem Cells |
| SEED |
Anirvan
Ghosh |
Generation of
forebrain neurons from human embryonic stem cells |
| SEED |
Catriona
Jamieson |
Derivation and
Characterization of Cancer Stem Cells from Human
ES Cells |
| SEED |
Cornelis
Murre |
Generation
of long-term cultures of human hematopoietic
multipotent progenitors from embryonic stem cells |
| SEED |
Binhai
Zheng |
Genetic manipulation
of human embryonic stem cells and its application
in studying CNS development and repair |
| Comprehensive |
Lawrence Goldstein |
Using Human Embryonic Stem Cells to Understand and to Develop New Therapies for Alzheimer's Disease. |
| Comprehensive |
Martin Marsala |
Spinal ischemic
paraplegia: modulation by human embryonic stem
cell implant. |
| Comprehensive |
Yang Xu |
Mechanisms to
maintain the self-renewal and genetic stability of
human embryonic stem cells |
| Shared Labs |
Karl
Willert |
Enhancing Facilities
for Genetic Manipulation and Engineering of Human
Embryonic Stem Cells |
| New Faculty I |
David
Traver |
Genetic dissection of
mesodermal commitment to the hematopoietic fates. |
| Disease Team
Planning |
Lawrence
Goldstein |
Human Stem Cell
Approaches to Alzheimers Disease Therapies |
| Disease Team
Planning |
Dennis Carson |
CIRM Planning Grant
in Leukemia |
| New Cell
Lines |
Steven
Dowdy |
Protein transduction
of transcription factors: a non-genetic approach
to generate new pluripotent cell lines from human skin. |
| New Faculty II |
Catriona Jamieson |
Derivation and Characterization of Myeloproliferative Disorder Stem Cells from Human ES Cells |
| New Faculty II |
Mana Parast |
Molecular Mechanisms of Trophoblast Stem Cell Specification and Self-Renewal |
| New Faculty II |
Shyni Varghese |
A Novel Microenvironment-Mediated Functional Skeletal Muscle from Human Embryonic Stem Cells and their In Vivo Engraftment |
| New Faculty II |
Benjamin Yu |
Regulation of Adult Stem Cell Proliferation by RAS and Cell-Permeable Proteins |
| University of
California, San Francisco |
| Training |
Susan
Fisher |
Training Program in
Stem Cell Research at UCSF |
| SEED |
Robert
Blelloch |
MicroRNA Regulation
of Human Embryonic Stem Cell Self-Renewal and
Differentiation |
| SEED |
Linda
Giudice |
Human Embryonic Stem
Cell Differentiation to Trophoblast: Basic Biology
and Clinical Translation to Improve Human Fertility |
| SEED |
Su
Guo |
Identifying small
molecules that stimulate the differentiation of
hESCs into dopamine-producing neurons |
| SEED |
Didier
Stainier |
Endodermal
differentiation of human ES cells |
| SEED |
Heike
Daldrup-Link |
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 |
| SEED |
Miguel
Ramalho-Santos |
Transcriptional
Regulation of Human Embryonic Stem Cells |
| SEED |
Thea
Tlsty |
Role of the tumor
suppressor gene, p16INK4a, in regulating stem cell
phenotypes in embryonic stem cells and human epithelial cells. |
| SEED |
Valerie Weaver |
Force, Dimensionality
and Stem Cell Fate |
| SEED |
Holger
Willenbring |
Induction of
pluripotency in fibroblasts by fusion with
enucleated human embryonic stem cell syncytia |
| Comprehensive |
Harold Bernstein |
Modeling Myocardial
Therapy with Human Embryonic Stem Cells |
| Comprehensive |
Susan Fisher |
Constructing a fate
map of the human embryo |
| Comprehensive |
Randall Lee |
Embryonic Stem
Cell-Derived Therapies Targeting Cardiac Ischemic
Disease |
| Comprehensive |
Samuel Pleasure |
Human stem cell
derived oligodendrocytes for treatment of stroke
and MS |
| Comprehensive |
Arnold Kriegstein |
Derivation of
Inhibitory Nerve Cells from Human Embryonic Stem
Cells |
| Comprehensive |
Andrew Leavitt |
Understanding
hESC-based Hematopoiesis for Therapeutic Benefit |
| Shared Labs |
Linda
Giudice |
Shared Research and
Teaching Laboratory: a Non-Federal Human Embryonic
Stem Cell Resource |
| Major Facilities |
|
CIRM Institute |
| Disease Team
Planning |
Jeffrey
Allen Blueston |
A CIRM Disease Team
for the Treatment and Cure of Diabetes |
| Disease Team
Planning |
Jeffrey Lotz |
A CIRM Disease Team
for the Repair of Traumatically Injured and
Arthritic Cartilage |
| New Cell
Lines |
Susan Fisher |
Optimization of Human
Embryonic Stem Cell Derivation Techniques and
Production/Distribution of GMP-Grade Lines |
| New Cell
Lines |
Long-Cheng
Li |
Induction of
pluripotent stem cells by small RNA-guided
transcriptional activation |
| New Cell Lines |
Miguel
Ramalho-Santos |
Somatic cell age and
memory in the generation of iPS cells |
| New Faculty II |
Robert Blelloch |
Mechanisms of small RNA regulation in early embryonic development |
| New Faculty II |
Ophir Klein |
Laying the groundwork for building a tooth: analysis of dental epithelial stem cells |
| New Faculty II |
Emmanuelle Passegue |
Mechanisms Underlying the Responses of Normal and Cancer Stem Cells to Environmental and Therapeutic Insults |
| New Faculty II |
Jeremy Reiter |
High throughput modeling of human neurodegenerative diseases in embryonic stem cells |
| New Faculty II |
Holger Willenbring |
Molecular dissection of adult liver regeneration to guide the generation of hepatocytes from pluripotent stem cells |
| University of
California, Santa Barbara |
| Training |
Dennis
Clegg |
UCSB Stem Cell
Biology Training Program |
| Shared Labs |
Dennis
Clegg |
Laboratory for Stem
Cell Biology and Engineering |
| Major Facilities |
|
CIRM Special Programs |
| University of
California, Santa Cruz |
| Training |
David
Haussler |
Training Program in
Systems Biology of Stem Cells |
| SEED |
Bin
Chen |
In vitro
differentiation of hESCs into corticospinal motor
neurons |
| SEED |
David Feldheim |
Assessing the role of
Eph/ephrin signaling in hESC growth and
differentiation |
| Shared Labs |
Lindsay
Hinck |
Shared Stem Cell
Facility |
| New Faculty I |
Bin
Chen |
Molecular mechanisms
of neural stem cell differentiation in the
developing brain |
| New Faculty I |
Camilla
Forsberg |
Mechanisms of Stem
Cell Fate Decisions |
| Major Facilities |
|
CIRM Special Programs |
| University of
Southern California |
| Training |
Robert
Maxson |
CIRM Stem Cell
Biology Training Grant |
| SEED |
David
Hinton |
Therapeutic potential
of Retinal Pigment Epithelial cell lines derived
from hES cells for retinal degeneration. |
| SEED |
Wange Lu |
Regulation of human
neural progenitor cell proliferation by
Ryk-mediated Wnt signaling |
| SEED |
Qilong Ying |
Self-renewal of human
embryonic stem cells |
| SEED |
Peter Laird |
Screening for
Oncogenic Epigenetic Alterations in Human ES Cells |
| Shared Labs |
Martin
Pera |
Center for Stem Cell
and Regenerative Medicine: Shared Research
Laboratory and Course in Current Protocols in Human Embryonic Stem Cell
Research |
| New Faculty I |
Mohammad
Pashmforoush |
Transcriptional
Regulation of Cardiac Pacemaker Cell Progenitors |
| New Faculty I |
Songtao
Shi |
Oral and Craniofacial
Reconstruction Using Mesenchymal Stem Cells |
| Major Facilities |
|
CIRM Institute |
| Disease Team
Planning |
David Timothy Woodley |
Clinical Regenerative
Wound Healing With Stem Cells |
| Disease Team
Planning |
Mark
S. Humayun |
Stem cell based
treatment strategy for Age-related Macular
Degeneration (AMD) |
| New Cell
Lines |
Martin Pera |
New Technology for the Derivation of Human Pluripotent Stem Cell Lines for Clinical Use |
| New Faculty II |
Gage Crump |
Skeletogenic Neural Crest Cells in Embryonic Development and Adult Regeneration of the Jaw |
| New Faculty II |
Qilong Ying |
Mechanisms Underlying the Diverse Functions of STAT3 in Embryonic Stem Cell Fate Regulation |
