Labs listed alphabetically: A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
A
- Ahmed Lab –germ cell immortality and telomeres in C. elegans
- Anton Lab –development of the cerebral cortex in mice
B
- Bautch Lab –angiogenesis during development and disease
- Brenman Lab –AMPK signaling in Drosophila and mice
- Bultman Lab –epigenetics and chromatin remodeling during mouse development and colorectal cancer
C
- Calabrese Lab –mechanisms of genome regulation by lncRNAs
- Caron Lab –cardiovascular biology in mice
- Conlon Lab –heart development in Xenopus and mice
- Crews Lab– transcriptional circuitry responsible for CNS development in Drosophila
D
- Duronio Lab –cell cycle regulation, nuclear body organization, and histone posttranslational modifications in Drosophila
G
- Gershon Lab –cerebellar development and medulloblastoma research
- Gilmore Lab –link between abnormal early brain development and risk for schizophrenia
- Giudice Lab –alternative splicing and intracellular trafficking in development and diseases
- Goldstein Lab –dynamic cell architecture and evo-devo, C. elegans and water bears
I
- Ideraabdullah Lab –genetic basis of epigenetic response to nutrition and environmental toxicants
L
- Liu Lab –cardiac development and function in zebra fish
M
- Mack Lab –smooth muscle cell growth and differentiation in mice
- Amy Maddox Lab –Cytoskeletal dynamics and cell division
- Paul Maddox Lab –mitotic mechanisms and chromosome dynamics
- Magnuson Lab –random X chromosome inactivation in mice
- Maness Lab –specification of neuronal connectivity by cell recognition molecules
- Marzluff Lab –post-transcriptional mRNA metabolism in mammalian cell culture and Drosophila
- Matera Lab –RNA processing in a Drosophila model for spinal muscular atrophy
- McKay Lab –developmental genomics
N
- Nimchuk Lab –receptor signaling pathways in plant development
O
- O’Brien Lab –kidney development and function in the mouse
P
- Pardo-Manuel Lab –population genetics and epistatic selection in inbred mouse strains
- Peifer Lab –cell adhesion, cytoskeletal regulation, and Wnt signaling in Drosophila development and disease
- Phanstiel Lab –3D chromatin structure, genome editing, monocyte differentiation, software development
Q
- Qian Lab –heart regeneration and repair in mice
R
- Reed Lab –regulation of plant development by environmental and endogenous signals
- Rogers Lab –regulation of microtubule dynamics and cellular contractility in Drosophila cell culture and tissues
S
- Santelli Lab –studying various mechanisms of neurodevelopmental disorders
- Shiau Lab –innate immune functions in vertebrate development using zebrafish as a model system
- Stein Lab –neural stem cell and human brain development
- Snider Lab –RTK signaling during brain development in mice
T
- Taylor Lab –signaling pathways that regulate development of the cardiovascular and musculoskeletal systems in mice
- Ting Lab –regulation of immunity and inflammation during disease progression in mice
W
- Wang Lab –epigenetic regulation of normal (embryonic and tissue-specific) stem cells and cancer stem cells; developing epigenetic-based pharmacologic treatment of cancer stem cells
- Williams Lab –regulation of asymmetric division in the mouse embryonic epidermis
X
- Xiong Lab –cell cycle control in cancer and stem cells in mice