The following GGR laboratories are interested
in epigenetics and chromatin
(Edwin)
Ted Abel
|
The molecular basis of synaptic
plasticity, learning and memory; the molecular basis of
sleep/wake regulation. |
Michael
Atchison
|
Control of Gene Expression,
development, and oncogenesis. |
Shelley
Berger
|
Chromatin structure and function
in gene regulation; post-translational modifications of
transcription factors and histones; genetic, biochemical
and structural analysis of chromatin in S. cerevisiae
and human cells; role of interrelated factor/histone modifications
in cancer and viral infection. |
Gerd
Blobel
|
hematopoiesis,
gene expression, transcription factors, chromatin |
Nancy
Cooke
| The role of chromatin structure
in eukaryotic gene regulation. |
Linda
Greenbaum
|
cell proliferation, differentiation
and injury in the mammalian liver |
Susan Janicki
|
Live cell analysis of epigenetic regulatory mechanisms. |
Klaus
Kaestner
| Using modern genetic approaches
(expression profiling, gene targeting, tissue-specific
and inducible gene ablation) to understand the molecular
mechanisms of organogenesis and physiology of the liver,
pancreas and gastrointestinal tract. |
Haig
Kazazian
|
Biology of mammalian retrotransposons;
Gene correction of Hemophilia A. |
Mitchell
Lazar
|
Regulation of gene expression
and metabolism by nuclear hormone receptors. |
Stephen
Liebhaber
|
Roles of chromatin structure
and epigenetic controls in eucaryotic gene activation;
Roles of mRNA-protein interactions in control of eucarytic
mRNA stability and expression. |
Steven
McMahon
|
Transcriptional Regulation
and Chromatin Function in Human Cancer |
John
R. Pehrson
|
Role of histone variants in
regulating chromatin structure and function |
| Mortimer
Poncz |
Role of platelets in thrombus
development |
Eileen
M. Shore
|
Genetic diseases of bone formation
and development; Molecular and cell biology of bone formation
and osteoblast differentiation; Transcriptional activation
and regulation of bone morphogenetic protein and GNAS1
target genes. |
Doris
Stoffers
|
Transcription factors and
signal transduction; Embryonic development and adult regeneration
of the endocrine pancreas; Relationship of defects in
these pathways to the pathophysiology of diabetes mellitus,
a disease caused by a deficiency in the production or
action of insulin. |
Doris
Wagner
|
Molecular mechanisms controling
developmental transitions in response to environmental
and endogenous cues. |
Kenneth
Zaret
|
Mammalian gene regulation,
cell differentiation, chromatin structure. |
| Jumin
Zhou |
Mechanism of epigenetic inheritance,
long-range transcription activation, insulator and anti-insulators. |
Other CAMB laboratories (with research related
to GGR) interested in epigenetics and chromatin
