The Zechner Lab applies molecular and cell biology techniques to investigate how mammalian cells regulate their phosphate homeostasis and sensing using the ubiquitous phosphate transporter PiT1/SLC20A1 as a model.

The Moe Lab specializes in translational pathophysiology that spans from individual molecules, in vitro cell models, in vivo animal models, to metabolic human studies. 

The Wang Lab investigates the roles of genetic factors and transcriptional regulation in skeletal diseases and bone cancer.

The Tower lab integrates multi-omics-based approaches in the fields of musculoskeletal development, homeostasis, repair and regeneration. 

Translational biophotonics for noninvasive detection of systemic disease.

My research interests include prevention of progression of renal diseases, diagnoses, and management of lipid disorders in renal disease, hypertensive nephrosclerosis, the role of angiotensin II converting enzyme inhibitors, and angiotensin II receptor blockers in renal disease. 

Explore the Vongpatanasin Lab at UT Southwestern, specializing in research on neural control of blood pressure, autonomic dysfunction, and the impact of nutrition and hormones on cardiovascular health. Discover clinical studies, lab members, and featured publications advancing hypertension and autonomic research.

We do difficult experiments at the frontier of cell physiology, often with our own methods and always with our own hands.

Oz Lab combines imaging, interventional radiology, radiotracers (novel and known), and animal models to study physiology and disease pathophysiology. 

The primary research focus of the Karner lab is to create and utilize novel mouse genetic models to study the role of cellular metabolism during skeletal development and disease.