Faculty
Primary Faculty
![Stefan Bekiranov](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2024/01/sb3de.jpeg)
Bekiranov, Stefan
Computational Biology; Bioinformatics; Precision Medicine; Machine Learning/AI; Quantum Computing
![Francine Garrett-Bakelman](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2024/02/fg5q-100x67.jpeg)
Garrett-Bakelman, Francine
Acute Myeloid Leukemia: molecular and cellular biology events which mediate aberrant epigenetic and transcriptional mechanisms during disease establishment and progression
![Hao Jiang](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/09/hj8d-100x95.jpeg)
Jiang, Hao
Regulation of stem cell function and tumorigenesis by epigenetics and biomolecular condensation (phase separation)
![Golam Mohi](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/01/gm7sj-100x140.jpeg)
Mohi, Golam
Cell signaling, stem cell biology, molecular and epigenetic mechanisms of blood and breast cancers
![P. Todd Stukenberg](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/01/pts7h-100x145.jpeg)
Stukenberg, P. Todd
Mechanisms of chromosome segregation in Mitosis and generation of Chromosomal Instability in tumors
![David Wotton](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/04/dw2p.jpeg)
Wotton, David
Regulation of Gene Expression, Development and Tumor Progression by TGF beta Signaling
![Tian Zhang](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2024/07/cgm8ck-100x97.jpeg)
Zhang, Tian
Integrating high-throughput proteomic, chemical, genetic and computational tools for target identification and drug discovery in cancer biology
Secondary Faculty
![Hui Li](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/09/hl9r.jpeg)
Li, Hui
Gene regulation in cancer, RNA processing; Epigenetic modification; Stem cell and development
![Clint Miller](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/01/cm6bt-100x104.jpeg)
Miller, Clint L.
Genetic variation, Complex diseases, Coronary artery disease, Genomics, Epigenomics, Regulatory mechanisms, Vascular biology, Pharmacology and Physiology
![Stephen Rich](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/01/ssr4n-100x133.jpeg)
Rich, Stephen S.
Genetic basis of common human disease, including type 1 diabetes, diabetic complications, ischemic stroke, atherosclerosis
![Nathan Sheffield](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/01/ns5bc-100x99.png)
Sheffield, Nathan
computational biology & bioinformatics; high performance computing; epigenomics & chromatin; pediatric cancer; computational regulatory genomics; machine learning
![Gloria Sheynkman](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/04/gs9yr-100x133.jpeg)
Sheynkman, Gloria M.
Proteoform Systems Biology: proteogenomic approaches to uncover the role of proteomic variation in human disease
![Chongzhi Zang](https://med.virginia.edu/bmg/wp-content/uploads/sites/45/2023/01/cz3d-100x133.jpeg)
Zang, Chongzhi
Bioinformatics methodology development; Epigenetics and chromatin biology; Transcriptional regulation; Cancer genomics and epigenomics; Statistical methods for biomedical data integration; Advanced machine learning; Theoretical and computational biophysic