PhD Program: Pathobiology & Translational Science
Name | PhD Program | Research Interest | Publications |
---|---|---|
Troester, Melissa WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Dr. Troester’s research focuses on stromal-epithelial interactions, genomics of normal breast tissue, breast cancer microenvironment, and molecular pathology of breast cancer progression. She is a Co-Investigator on the Carolina Breast Cancer Study (CBCS), a resource including breast tumors from thousands of African American women, and she is PI of the Normal Breast Study (NBS), a unique biospecimen resource of normal tissue from women undergoing breast surgery at UNC Hospitals. Dr. Troester has extensive experience in integrating multiple high dimensional data types. She is chair of the Normal Breast Committee for the Cancer Genome Atlas Project where she is leading coordination of histology, copy number, mutation, methylation, mRNA and microRNA expression data. She has more than a decade of experience working with genomic data and molecular biology of breast cancer progression and has published many papers in the area of breast cancer subtypes, breast microenvironment, and stromal-epithelial interactions. She has trained four postdocs, 12 predoctoral students and several undergraduates. |
Schisler, Jonathan C. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Schisler Lab is geared towards understanding and designing therapies for diseases involving proteinopathies- pathologies stemming from protein misfolding, aggregation, and disruption of protein quality control pathways. We focus on cardiovascular diseases including the now more appreciated overlap with neurological diseases such as CHIPopathy (or SCAR16, discovered here in our lab) and polyQ diseases. We use molecular, cellular, and animal-based models often in combination with clinical datasets to help drive our understanding of disease in translation to new therapies. |
Baldwin, Albert S. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our laboratory studies an amazing regulatory factor known as NF-kappaB. This transcription factor controls key developmental and immunological functions and its dysregulation lies at the heart of virtually all major human diseases. |