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NameEmailPhD ProgramResearch InterestPublications
Raab, Jesse
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Genetics & Molecular Biology

RESEARCH INTEREST
Bioinformatics, Cancer Biology, Computational Biology, Genetics, Genomics

We are interested in the links between epigenetics and gene regulation. Our primary focus is on understanding how changes to the composition of chromatin remodeling complexes are regulated, how their disruption affects their function, and contributes to disease. We focus on the SWI/SNF complex, which is mutated in 20% of all human tumors. This complex contains many variable subunits that can be assembled in combination to yield thousands of biochemically distinct complexes. We use a variety of computational and wet-lab techniques in cell culture and animal models to address these questions.

Parnell, Scott E.
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Cell Biology & Physiology

RESEARCH INTEREST
Cell Biology, Developmental Biology, Genetics, Neurobiology

Our research focuses on the genetic and cellular mechanisms that underlie how prenatal exposure to alcohol and other drugs, such as cannabinoids, disrupt normal brain development. We use a wide variety of molecular and cell biology tools including RNA-seq (whole transcriptomic profiling), mouse transgenics, and confocal imaging to understand how drugs alter cell signaling pathways and transcriptional regulation in development. Our work also studies key regulatory pathways, such as Sonic hedgehog (Shh) and other primary cilia-mediated signals, during normal and aberrant embryonic development.

Gordon, Kacy

EMAIL
PUBLICATIONS

PHD PROGRAM
Biology, Genetics & Molecular Biology

RESEARCH INTEREST
Cell Biology, Developmental Biology, Evolutionary Biology, Genetics

The Gordon lab is brand new to UNC, and studies stem cell and stem cell niche biology in the model organism C. elegans. The germ line stem cells make the gametes, which make the next generation of worms. These cells are therefore at the nexus of development, genetics, and evolution. We will be getting started with projects pertaining to evolutionary comparative gene expression in the stem cells and stem cell niche and niche development. The techniques we use include molecular biology, CRISPR/Cas9-mediated genome editing, worm genetics, and microscopy.

Flick, Matthew

EMAIL
PUBLICATIONS

PHD PROGRAM
Pathobiology & Translational Science

RESEARCH INTEREST
Cell Biology, Genetics, Immunology, Metabolism, Pathogenesis & Infection

Our laboratory studies the role of the blood coagulation system in inflammatory, infectious, and malignant disease. Specifically, we are interested in better defining the roles of factors such as prothrombin, fibrinogen and plasminogen in driving disease processes in the contexts of pancreatic ductal adenocarcinoma (PDAC), Staphylococcus aureus infection, and obesity/metabolic syndrome. Current studies suggest that coagulation factors drive mechanisms of disease both dependent and independent of their traditional roles in hemostasis and thrombosis. Our overall goal is to translate this knowledge into novel approaches for treating these common yet deadly diseases.

Scherrer, Gregory
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Cell Biology & Physiology, Genetics & Molecular Biology, Neuroscience, Pharmacology

RESEARCH INTEREST
Cell Biology, Genetics, Neurobiology, Pharmacology, Physiology

Pain is a complex experience with sensory and emotional components. While acute pain is essential for survival, chronic pain is a debilitating disease accompanied by persistent unpleasant emotions. Efficient medications against chronic pain are lacking, and the absence of alternative to opioid analgesics has triggered the current Opioid Epidemic. Our lab studies how our nervous system generates pain perception, at the genetic, molecular, cellular, neural circuit, and behavioral levels. We also seek to understand how opioids alter activity in neural circuits to produce analgesia, but also side effects such as tolerance, addiction and respiratory depression. To this aim, we investigate the localization, trafficking and signaling properties of opioid receptors in neurons. These studies clarify pain and opioid mechanisms for identifying novel non-addictive drug targets to treat pain and strategies to dissociate opioid analgesia from deleterious effects.

Dowen, Rob
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Biology, Cell Biology & Physiology, Genetics & Molecular Biology

RESEARCH INTEREST
Cell Biology, Cell Signaling, Computational Biology, Genetics, Genomics, Metabolism

Appropriate allocation of cellular lipid stores is paramount to maintaining organismal energy homeostasis. Dysregulation of these pathways can manifest in human metabolic syndromes, including cardiovascular disease, obesity, diabetes, and cancer. The goal of my lab is to elucidate the molecular mechanisms that govern the storage, metabolism, and intercellular transport of lipids; as well as understand how these circuits interface with other cellular homeostatic pathways (e.g., growth and aging). We utilize C. elegans as a model system to interrogate these evolutionarily conserved pathways, combining genetic approaches (forward and reverse genetic screens, CRISPR) with genomic methodologies (ChIP-Seq, mRNA-Seq, DNA-Seq) to identify new components and mechanisms of metabolic regulation.

Gupta, Gaorav
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Biochemistry & Biophysics, Genetics & Molecular Biology

RESEARCH INTEREST
Cancer Biology, Cell Biology, Genetics, Molecular Biology, Translational Medicine

Our lab studies pathways that regulate genome instability in cancer, which is a cancer hallmark associated with clinically aggressive disease. We utilize CRISPR-enhanced murine models of breast cancer to interrogate the impact of DNA damage response gene mutations on cancer pathogenesis and therapeutic susceptibility. We have identified an alternative DNA double strand break repair pathway as a driver of genome instability in a subset of breast cancers, and are investigating its potential as a therapeutic target.  We also study how deficiencies in DNA repair can impact responsiveness to immunotherapy. Finally, we have developed sensitive assays for detecting circulating tumor DNA (i.e., “liquid biopsy”) in cancer patients, with an interest in validating predictive biomarkers for personalized cancer therapy.  These translational studies are currently being performed in patients with breast cancer and cancers that arise in the head/neck.

Linnstaedt, Sarah
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Genetics & Molecular Biology

RESEARCH INTEREST
Behavior, Computational Biology, Genetics, Neurobiology, Translational Medicine

Trauma and stress are common in life. While most individuals recover following trauma/stress exposure, a substantial subset will go on to develop adverse neuropsychiatric outcomes such as chronic pain, posttraumatic stress disorder (PTSD), depression, and postconcussive symptoms. Our research is focused on understanding individual vulnerability to such outcomes and to identify novel biomarkers and targets for therapeutic intervention. We use translational research approaches, including bioinformatics analysis of large prospective human cohort data, animal model research, and systems and molecular biology to better understand pathogenic mechanisms. We are particularly interested in the genetic and psychiatric/social factors influencing adverse outcome development, as well as biological sex differences that contribute to higher rates of these outcomes in women vs men.

Dominguez, Daniel
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Bioinformatics & Computational Biology, Pharmacology

RESEARCH INTEREST
Cell Signaling, Computational Biology, Genetics, Molecular Biology, Pharmacology

The Dominguez lab studies how gene expression is controlled by proteins that bind RNA. RNA binding proteins control the way RNAs are transcribed, spliced, polyadenylated, exported, degraded, and translated. Areas of research include: (1) Altered RNA-protein interactions in cancer; (2) RNA binding by noncanonical domains; and (3) Cell signaling and RNA processing.

Poulton, John S.
WEBSITE
EMAIL
PUBLICATIONS

PHD PROGRAM
Cell Biology & Physiology

RESEARCH INTEREST
Cell Biology, Developmental Biology, Genetics, Immunology, Translational Medicine

Many diseases of the kidney remain poorly understood. My research program spans a range of disciplines (e.g., genetics, cell biology, immunology) and experimental approaches (e.g., microscopy, molecular biology, biochemistry, and model organisms—Drosophila and zebrafish) to answer fundamental questions regarding the genetic and cellular basis of kidney function and disease. We are also developing novel assays to study autoimmune diseases of the kidney, with the goal of facilitating patient diagnosis and treatment. By applying modern tools to long-standing problems, we hope to translate our research findings to improved patient outcomes.