Research Interest: Biochemistry
Name | PhD Program | Research Interest | Publications |
---|---|---|
Zhang, Qi WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our laboratory is focusing on developing and applying solution-state NMR methods, together with computational and biochemical approaches, to understand the molecular basis of nucleic acid functions that range from enzymatic catalysis to gene regulation. In particular, we aim to visualize, with atomic resolution, the entire dynamic processes of ribozyme catalysis, riboswitch-based gene regulation, and co-transciptional folding of mRNA. The principles deduced from these studies will provide atomic basis for rational manipulation of RNA catalysis and folding, and for de novo design of small molecules that target specific RNA signals. Research program in the laboratory provides diverse training opportunities in areas of spectroscopy, biophysics, structural biology, computational modeling, and biochemistry. |
Zhang, Qisheng WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Our lab studies lipid signaling pathways that are involved in development and diseases by developing novel chemical probes and technologies. As key components of cellular membranes, lipids also serve as signaling molecules and modify functions of proteins through either covalent or non-covalent interactions. Dys-regulation of lipid signaling has been correlated with various diseases including cancer, diabetes, and neurodegenerative diseases. Consequently, many lipid-related proteins or processes have been used as therapeutic targets. However, lipids are dynamically metabolized and transported, making it difficult to illustrate the roles of lipids in development and diseases with limited availability of probes and technologies for lipid studies. The active projects in the lab include: 1) develop novel technologies to synthesize complex lipids, particularly phosphatidylinositides, and identify their interacting proteins in live cells; 2) develop new small molecule sensors and inhibitors for lipid metabolic enzymes such as PI3K and PLC; and 3) investigate cellular functions of lipids on different processes, particularly those regulated by small GTPases. |
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. |
Cohen, Todd WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
My research aims to uncover the molecular aspects of protein aggregation diseases (also called PAD) which include neurodegenerative diseases (such as Alzheimer’s disease and Amyotrophic Lateral Sclerosis), myofibrillar myopathies (such as muscular dystrophies), as well as the formation of age-related cataracts. Although very distinct, these disorders share a common underlying pathogenic mechanism. Using a combination of biochemistry and in vitro approaches, cell biology, and primary cells / transgenic mouse models, we will investigate the post-translational modifications (PTMs) that drive these disease processes. Ultimately, this research will provide a platform for future drug discovery efforts against these devastating diseases. |
Maddox, Amy Shaub WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
My research philosophy is summed up by a quote from Nobelist Albert Szent-Gyorgyi: “Discovery is to see what everybody has seen and to think what nobody has thought.” My lab studies the molecular and physical mechanisms of cell shape change during cytokinesis and tissue biogenesis during development. Specifically, we are defining how cells ensure proper alignment and sliding of cytoskeletal filaments, and determining the shape of the cell throughout division. To do so, we combine developmental biology, cell biology, biochemistry, and quantitative image analysis. |
Hicks, Leslie M. WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in the Hicks lab focuses on development and implementation of mass spectrometric approaches for protein characterization including post-translational modifications, as well as the identification of bioactive peptides/proteins from plants. Keywords: proteins / peptides, proteomics, PTM, enzymes, analytical chemistry, mass spectrometry, separations / chromatography, plants, algae. |
Lockett, Ryen Matthew WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
Research in the Lockett group focuses on the development of analytical model systems to: i) chemically modify the surface of thin films, and study chemical and biochemical reactions occurring on those surfaces; ii) study drug metabolism in an environment that closely mimics the human liver; iii) measure tumor invasion in an environment that closely mimics human tissue. / / While these problems require techniques found in analytical chemistry, biochemistry, molecular biology, bioengineering, and surface science we are particularly interested in the technologies that allow us to quantitatively measure reactions and analytes. |
Marchetti, Adrian WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
We are a biological oceanography lab that performs inquiry-based science by combining physiological and molecular approaches in laboratory isolates and natural communities to investigate how marine microorganisms are affected by their environment and in turn, influence ocean biogeochemistry and ecosystem dynamics. Particular interests include studying trace metals, such as iron, that are essential for the nutrition of phytoplankton and predicting the effects of future climate changes on phytoplankton distribution and abundance. We implement the use of environmental genomic approaches (e.g. RNA-seq) to ascertain the ways in which marine microbes have adapted and acclimate to varying environmental conditions. |
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. |
Krupenko, Natalia WEBSITE PUBLICATIONS |
PHD PROGRAM RESEARCH INTEREST |
My laboratory is interested in the role of folate and related metabolic pathways in methyl group metabolism, and their involvement in pathogenesis and etiology of diseases. We have recently discovered a novel function of a folate-binding methyltransferase GNMT in the regulation of cellular proliferation, and now study the genetic variations in GNMT and their effects on new function. Our lab is also interested in the cross talk between folate metabolism and sphingolipid pathways as a mediator of folate stress with the goal of exploiting this connection to improve human health. |