Pouratian Lab's primary mission is to explore basic human neuroscientific principles as well as identify brain mapping biomarkers of disease that can drive innovative approaches to restore function to patients with neurological and psychiatric diseases.
Dr. Prinz's research is focused on the tiny organelles within cells that do the cell’s work, much like the organs in a human body. He is best known for studies into the exchange of fats (also called lipids) between organelles at so-called membrane contact sites where organelles come in close contact within a cell.
The METRICS PROSPR II Research Center studies the multilevel factors that hamper or facilitate the cervical cancer screening process and reduce disparities in vulnerable populations.
The Psychoneuroendocrine Research Program (PNE) at UT Southwestern Medical Center focuses on two different areas of research: substance abuse, particularly dual diagnoses (e.g., depression or bipolar disorder); and the effects of corticosteroids (e.g., prednisone) on mood and memory.
Dr. Robin Jarrett’s Psychosocial Research and Depression Clinic aims to understand how psychosocial factors influence health in mood and related disorders.
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Qiao lab focuses on mechanisms of cancer immunotherapy and immune-related adverse events (irAEs)
Qin Lab focuses on the development of novel synthetic transformations and strategies that will allow access to bioactive, complex natural products and efficient synthesis of pharmaceuticals and their derivatives.
We are interested in how membrane cholesterol controls diverse cellular signaling pathways to ensure lipid homeostasis, enable cell growth, and protect against infections.
Our mission is to decrease suffering and death from metastatic cancers
We are broadly interested in how energy is regulated on a systems level during infection. Our current projects are focused on understanding the role that adipose tissue plays in the response to influenza and SARS-CoV2.
We are driven by the belief that the spatial organization of tissue provides a powerful window into cell-cell interactions, a crucial component of disease progression and response.
The Ready Lab is engaged in the discovery and synthesis of biologically active small molecules
The Reddy Lab focuses on restoring effective antigen presentation to enhance anti-tumor immunity in breast cancers.
Our lab is broadly focused on the cellular signaling that drives the interactions between the intracellular parasite Toxoplasma gondii and its varied hosts.
In our lab, we investigate the interactions between these multiple pathogens and the immune system.
The Reinecker laboratory unravels and targets molecular mechanisms of key human genetic variants that cause chronic inflammatory diseases and cancer by creating novel genetic mouse and human organotypic model systems.
We are interested in the molecular mechanisms by which nuclear hormone receptors regulate lipid and carbohydrate metabolism in the liver, intestine, pancreatic islet, and central nervous system.
We use statistical analysis of genome sequences drawn from thousands of organisms to distill out general patterns describing the organization of cellular systems and individual proteins.
The Rice Lab uses structure, biochemistry, reconstitution, microscopy, computer modeling, and more to study the molecular mechanisms that generate and regulate microtubule dynamics.
We investigate the mechanism of neurotransmitter release using a variety of biophysical approaches, including NMR spectroscopy, X-ray crystallography, cryo-EM, molecular dynamics simulations and liposome fusion assays.
Roberts Lab focuses on understanding the cellular and circuit mechanisms for behavioral learning, learning from social experiences and from example.
