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NameEmailPhD ProgramResearch InterestPublications
Cohen, Sarah
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Cell Biology & Physiology, Neuroscience

RESEARCH INTEREST
Biochemistry, Cell Biology, Microscopy, Neurobiology

Lipids are crucial molecules for life. They play important roles in building membranes, storing energy, and cell signaling. We are interested in how lipids move around both within cells and between cells, for example from astrocytes to neurons. The lab uses cutting-edge microscopy techniques including live-cell imaging, superresolution microscopy, and multispectral imaging. We use these approaches to understand how defects in lipid trafficking contribute to metabolic and neurodegenerative diseases.

Gladfelter, Amy
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Bioinformatics & Computational Biology, Biology, Cell Biology & Physiology

RESEARCH INTEREST
Biophysics, Cell Biology, Genetics, Microbiology, Microscopy, Quantitative Biology

We study large multinucleate cells such as fungi, muscle and placenta to understand how cells are organized in time and space.  Using quantitative live cell microscopy, biochemical reconstitution and computational approaches we examine how the physical properties of molecules generate spatial patterning of cytosol and scaling of cytoskeleton scaffolds in the cell cycle.

Wolberg, Alisa
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Pathobiology & Translational Science

RESEARCH INTEREST
Biochemistry, Bioinformatics, Cardiovascular Biology, Microscopy, Molecular Medicine, Pathogenesis & Infection, Pathology, Translational Medicine

We investigate mechanisms in blood coagulation and diseases that intersect with abnormal blood biomarkers and function, including cardiovascular disease (heart attack, stroke, deep vein thrombosis, pulmonary embolism), bleeding (hemophilia), inflammation, obesity, and cancer. We also investigate established drugs and new drugs in preclinical development to understand their role in reducing and preventing disease. Our studies use interdisciplinary techniques, including in vitro, ex vivo, and in vivo mouse models and samples from humans in translational studies that span clinic to bench. Our lab emphasizes a culture of diversity, responsibility, independence and collaboration, and shared excitement for scientific discovery. We are located in the UNC Blood Research Center in the newly-renovated Mary Ellen Jones building.

Bressan, Michael
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Cell Biology & Physiology

RESEARCH INTEREST
Biophysics, Cardiovascular Biology, Cell Biology, Cell Signaling, Developmental Biology, Genetics, Microscopy, Molecular Biology, Molecular Medicine, Physiology, Stem Cells

How do networks of cells synchronize behaviors across differing spatial and temporal scales? This fundamental aspect of cellular dynamics is broadly relevant to understanding many biological systems in which the coherence of electrical or chemical signals is required for multicellular patterning or organ function. Our group’s primary research interests are related to understanding the cellular and microenvironmental conditions that are required to support the biorhythmic behavior of the system of cells that natively control heart rate, cardiac pacemaker cells. We utilize a variety of techniques including computational modeling, next generation sequencing, in vivo genetic manipulation, super-resolution imaging, and direct physiological recording to investigate the developmental processes that assemble the hearts pacemaking complex. The ultimate goals of these studies is to determine how the pacemaker cell lineage is patterned in the embryo, build strategies towards fabricating this cell type for therapeutic purposes, and identify vulnerabilities that may lead to pacemaker cell pathologies in humans.