PhD Program: Microbiology & Immunology
| Name | PhD Program | Research Interest | Publications |
|---|---|---|
| Ting, Jenny WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Topics include gene discovery, genomics/proteomics, gene transcription, signal transduction, molecular immunology. Disease relevant issues include infectious diseases, autoimmune and demyelinating disorders, cancer chemotherapy, gene linkage. |
| Tisch, Roland WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Projects involve the study of cellular and molecular events involved in autoimmunity, and development and application of genetic vaccines to prevent and treat autoimmunity and cancer. |
| Vilen, Barbara WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We are interested in understanding how autoreactive B cells become re-activated to secrete autoantibodies that lead to autoimmune disease. Our research is focused on understanding how signal transduction through the B cell antigen receptor (BCR) and Toll Like Receptors (TLR) lead to secretion of autoantibodies in Systemic Lupus Erythematosus (SLE). |
| Wan, Yisong WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We are a molecular genetics laboratory studying immune functions by using mouse models. The focus of our research is to investigate the molecular mechanisms of immune responses under normal and pathological conditions. Our goal is to find therapies for various human immune disorders, such as autoimmunity (type 1 diabetes and multiple sclerosis), tumor and cancer, and inflammatory diseases (inflammatory bowel disease, asthma and arthritis). |
| Whitmire, Jason WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The Whitmire lab investigates how the adaptive immune system protects against virus infection. The research is focused on understanding the mechanisms by which interferons, cytokines, and other accessory molecules regulate T cell numbers and functions following acute and chronic virus infections. The goal is to identify and characterize the processes that differentiate memory T cells in vivo. The long-term objective is to develop strategies that improve vaccines against infectious diseases by manipulating these pathways. |
| Wolfgang, Matthew C. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Pseudomonas aeruginosa is a Gram-negative opportunistic pathogen responsible for a variety of diseases in individuals with compromised immune function. Dr. Wolfgang’s research focuses on the pathogenesis of Pseudomonas aeruginosa infection. The goal of his research is to understand how this opportunistic pathogen coordinates the expression of virulence factors in response to the host environment. Projects in his laboratory focus on the regulation of intracellular cyclic AMP, a second messenger signaling molecule that regulates P. aeruginosa virulence. Dr. Wolfgang’s laboratory uses a combination of molecular genetics and biochemical approaches to understand how P. aeruginosa controls the synthesis, degradation and transport of cAMP in response to extracellular cues. Other related projects focus on the regulation and function of P. aeruginosa Type IV pili (TFP). TFP are cAMP regulated surface organelles that are critical for bacterial colonization of human mucosal tissue. In addition, the Wolfgang lab is actively involved in characterizing the lung microbiome of patients with chronic airway diseases and studying the interactions between P. aeruginosa and other bacterial species during mixed infections. |
| Li, Bo WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our research focuses on the discovery and design of new gene-encoded bioactive small molecules from bacteria. We are interested in understanding enzymes involved in their biosynthesis, their therapeutic mechanisms of action, and implications in health and diseases, in particular with respect to the human microbiome. This work is driven by intensive development of new metabolomics and genomics technologies. We subsequently manipulate and engineer these biosynthetic pathways to make new and improved molecules as potential therapeutics such as antibiotics. |
| Darville, Lee Antionette (Toni) WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in the Darville lab is focused on increasing our understanding of immune signaling pathways active in development of genital tract disease due to Chlamydia trachomatis and determination of chlamydial antigen-specific T cell responses that lead to protection from infection and disease. In vitro, murine model, and human studies are being performed with the ultimate goal to develop a vaccine against this prevalent sexually transmitted bacterial pathogen. Genetic and transcriptional microarray studies are being performed to explore pathogenic mechanisms and determine biomarkers of pelvic inflammatory disease due to Chlamydia as well as other sexually transmitted pathogens. |
| Burks, Wesley WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
The UNC Food Allergy Institute (UNCFAI) was established in 2012 to address the growing needs of children and adults with food allergy. Program investigators study the biologic basis of food allergy in the laboratory and in clinical research studies seeking to better understand the role of allergen-specific IgE and the mechanism of allergen immunotherapy. The Institute provides comprehensive, family-centered patient care for food allergy, food-related anaphylaxis, and other related disorders like atopic dermatitis and eosinophilic esophagitis. |
| Ainslie, Kristy M. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We have several areas of research interest broadly in the area of immunomodulation using micro/nanoparticles and other carrier systems. This can include development of traditional vaccines, therapeutic autoimmune vaccines and classic drug delivery platforms targeted to bacterial, viral or parasitic host cells. To this end, we also seek to develop new materials and platforms optimal for use in modulating immune responses as well as developing scalable production of micro/nanoparticles. |