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My focus is in vascular function in health and disease; inflammation and thrombosis, antiphospholipid antibodies, and miRNA. 

My research involves neurobiology of the auditory hair cell: mechanotransduction, synaptic transmission, and development. I also research Zebrafish models of deafness.

I investigate lipid signaling molecules that control intracellular functions in human inflammation. I also research enzymes that make and inactivate lipid signaling molecules, and their roles in human disease.

Our research centers on how changes in the extracellular matrix results in dysfunctional heart development and resulting congenital heart defects. We utilize preclinical mouse models of congenital heart disease, cell culture, genomics, biochemistry, and proteomics to understand the molecular mechanisms underlying these diseases towards the development of therapeutic approaches. Our current major research focus is on the novel concept of inhibiting a protease that remodels fibrillin microfibrils in the aorta to identify a therapeutic for Marfan syndrome.

Timothy J. Mead's Biography 

My research focuses on structural and functional studies to reveal the impact of mitochondrial dynamics on cell health and proliferation in human diseases, including cancer, neurodegeneration and cardiomyopathy. My areas include cryo-electron microscopy, biochemistry, computational biology, and cancer stem cell models.

Jason A. Mears's Biography 

I research synapse assembly and function, psychiatric disorders including autism and schizophrenia, neurological disorders such as ALS, muscular dystrophy, and myasthenia gravis. 

Lin Mei's Biography 

My research focuses on mechanism and regulation of eukaryotic protein biosynthesis. 

William C. Merrick's Biography 

I study hormonal interactions and signaling mechanisms that control the process and timing of human birth. 

The goal of our lab is to create effective immunotherapies for brain tumor patients. Our research utilizes advanced single-cell genomics, spatial transcriptomics, and human organoid models to understand immunosuppressive myeloid cells in brain tumors and how to target these to make CAR-T therapies and immune checkpoint therapies more effective. Learn more at tymillerlab.org

Tyler Miller's Biography 

My area of investigation include contributions of motor neuron, skeletal muscles, astrocytes and cortical neurons to neuromuscular and neurodegenerative disorders using patient derived stem cells. 

Helen Miranda's Biography