Search Labs

The research of Wai Lab focuses on female pelvic floor disorders and understanding the functional anatomy of the lower urinary tract and anal sphincter.

The Wakeland Lab utilizes state-of-the-art genomic strategies to investigate the diversity of the human and mouse immune systems. 

The Wang Lab uses chemical biology tools to study the molecular mechanisms underlying interesting bacterial behaviors.

The broad research interest of Fei Wang lab is in dissecting molecular mechanisms of essential membrane-associated cellular events in eukaryotic cell development.

We apply advanced MRI technologies to study many different diseases.

Wang Lab focuses on how genetic factor and transcription regulation function in skeletal disease and bone cancer.

Dr. Wang's research interests primarily involve the development of statistical methodologies for the design and analysis of clinical trials, as well as the evaluation of correlated data and repeated measurements. Her specific focus has been on power analysis, experimental design, and sample size determination for longitudinal studies using Frequentist and Bayesian approaches. Dr. Wang has also developed the methodologies that are very flexible and can accommodate various pragmatic issues such as longitudinal and clustered outcomes, random variability in cluster size, unbalanced randomization, complicated correlation structures, missing data, and small sample sizes. Those methodologies have achieved great performances across a broad spectrum of design configurations and made innovative contributions to clinical studies.

The Wang lab applies single-molecule fluorescence biophysical, quantitative biochemical, structural, and genetics approaches to unravel the intricate relationships between structure, dynamics and function in complex dynamic biological systems. Our primary goal is to understand the dynamic mechanisms of cytosolic and mitochondrial protein synthesis and how they are dysregulated in human diseases.

Our mission is to innovate, develop, and apply biomedical technology to empower cancer research.

MUDIA Lab is focused on developing novel quantitative MRI techniques and analysis methods on CNS and musculoskeletal system. 

Our research focuses on how the conserved signaling pathways that underlie normal skin development are altered during the development of non-melanoma skin cancers and inflammatory skin disease.

Our research revolves around using state-of-the-art bioinformatics and biostatistics approaches to study the implications of tumor immunology for tumorigenesis, metastasis, prognosis, and treatment response in a variety of cancers.

We study ion channel clusters. To study such clusters without the complications arising from the complex cellular environment, components from cells are purified and studied in isolation.

The Wang Lab studies neurodegeneration and cell death induced by brain injury, mitochondrial dysfunction, and/or genome instability.

Dr. Waugh is a physician-scientist whose research focuses on the structural brain abnormalities that lead to dystonia, a movement disorder that leads muscles to twist and contort into painful positions.

The over-arching theme of the Weaver Lab is to deeply understand how proteolytic factors mediate diverse physiological functions.

The Welch Lab has a primary interest in developing materials and medical devices for use in treatment of congenital heart disease.

Located in the Department of Ophthalmology, the Wert laboratory studies the post-mitotic neuronal cells of the retina, particularly the photoreceptor cells. Our goal is to discover and understand the mechanisms underlying retinal degenerative disease, and to provide novel therapeutics for these complex degenerative disorders using gene therapy and genome engineering technologies, human stem cell transplantations, and metabolic rescue.

We focus on the discovery of targeted therapies for major drivers of cancer using protein chemistry, enzymology, structural biology, informatics and cell biology. Some of our favorite targets are RAS and kinase proteins.

The Wetzel Lab targets critical steps in the parasite’s life cycle in order to develop therapeutics for Leishmaniasis.

White, Perrin Lab - Labs - Research

The Whitehurst Lab uses RNAi-based functional genomics to identify gene products that support viability and/or modulate chemotherapeutic sensitivity in tumor cells. 

We are interested in understanding at a cellular level the neural control of energy balance and glucose metabolism, and elucidating how these events may participate in human disease.

The Concussion, Acquired Brain Injury, and Neurodegeneration (CABIN) Laboratory, led by Kristin Wilmoth, Ph.D., investigates best practices for assessment and treatment of concussion and more severe traumatic brain injury, other acquired brain injuries such as stroke, and neurodegenerative conditions such as Alzheimer's disease.

Wilson Lab