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Search Results for Research Area: "Cell and systems biology"


Faculty Search Results: Results 1 - 20 (List more/fewer results: 10 20 30 40 )
Faculty Member Brief Research Description
Peter Arvan We focus on the molecular mechanisms of protein folding and trafficking in endocrine cells, and diseases of misfolding and mistargeting.   
Scott Barolo Research Interests: Gene regulation and cell signaling in development; Structure, function, and evolution of transcriptional enhancers.   
Sally A. Camper, Ph.D. bioinformatics, cancer, developmental biology, gene expression, genetics of disease, hearing research, hormone action, neuroscience, organogenesis reproductive biology, signaling, skeletal development, stem cell research  
Greg Cartee Effects of exercise, diet (calorie restriction) or aging on regulation of skeletal muscle glucose transport and insulin signaling  
Christin Carter-Su Obesity; neuronal differentiation and function; signal transduction by receptor tyrosine kinases; JAK-Stat signaling in growth, cancer and metabolism; growth hormone signaling and cellular function; tyrosine kinase adapter proteins; diabetes; cell motility   
Mark Day Our research is focused on prostate and bladder epithelial adhesion and survival and the influence of the microenvironment on these processes and on tumorigenesis in these organs.  
Andrzej Dlugosz Embryonic signaling pathways in cancer initiation, progression, and maintenance  
Mara Duncan The molecular mechanisms of membrane traffic, and how it promotes cell survival during stresses including starvation.  
dan eitzman Molecular mediators of adipose tissue inflammation and effects of inflammatory adipose tissue on vascular endpoints using mouse models  
J.T. Elder Our lab uses genetics, cell biology, and immunology to better understand psoriasis. We are transitioning from a genetic to a functional approach.   
Peter Freddolino Combining high-throughput experimental measurements with multiscale modeling to understand and simulate regulatory networks  
Phil Gage Cell fate decisions in neural crest and mesoderm; genetic analysis of mammalian eye development; transcription factors; cell signaling pathways  
Ken Inoki Role of TSC-mTOR signaling in the development of cancer and metabolic diseases such as diabetes. Signal transduction and molecular mechanism of cell growth and energy homeostasis.  
Ajit Joglekar mechanochemical signal transduction, Biophysics of macromolecular protein complexes using in vivo high-resolution fluorescence microscopy, image analysis, and engineered assays.  
Katy Keegan Mouse models of telomere dysfunction, genomic instability, and birth defects. Molecular genetics of caudal and urogenital development.   
Tom Kerppola Our laboratory investigates the regulation of transcription in mammalian cells. We use a variety of imaging approaches to visualize protein interactions and modifications in living cells and animals.  
Ron Koenig Thyroid cancer caused by a chromosomal translocation that generates a PAX8-PPARgamma fusion protein.  
Daniel Lawrence The Lawrence lab's primary areas of interest focus on the vascular biology of stroke and the development of atherosclerosis.  
Ram Menon The major research emphasis of our laboratory is to understand the role of the growth hormone (GH) / growth hormone receptor (GHR) axis in the pathogenesis of diabetic nephropathy.   
Sofia Merajver Molecular genetics of aggressive breast cancer phenotypes and comparative studies and integrated modeling.   
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