Organization: UNC / UNC Health

We are a human immunology lab focusing on all aspects of T cell immunobiology in HIV-1 infection. Studies range from basic questions like, ‘What are the determinants of the first T cell response following infection?’ to translational challenges such as ‘What is the best design for a T cell vaccine...

Our lab has two areas of interest: the molecular basis of liver diseases and the biochemical mechanisms of disorders linked to intermediate filament gene mutations. We use biochemical, cell-based and in vivo approaches to identify potential disease targets and to understand their function and regulation. The major goal of our...

Understanding how cells communicate and co-ordinate during development is a universal question in biology. My lab studies the cell to cell signaling systems that control plant stem cell production.  Plants contain discrete populations of self-renewing stem cells that give rise to the diverse differentiated cell types found throughout the plant....

My lab studies how genes function within the three-dimensional context of the nucleus to control development and prevent disease. We combine genomic approaches (ChIP-Seq, ChIA-PET) and genome editing tools (CRISPR) to study the epigenetic mechanisms by which transcriptional regulatory elements control gene expression in embryonic stem cells.  Our current research...

We are a lab exploring how variations in the genome change the structure and development of the brain, and in doing so, create risk for neuropsychiatric illness. We study genetic effects on multiple aspects of the human brain, from macroscale phenotypes like gross human brain structure measured with MRI to...

Oscillatory behaviors are seen at multiple scales throughout biology and fundamentally require both a biochemical process capable of sustained, repetitive, state transitions and a system to functionally interpret each state. Multicellular organ systems routinely utilize such biorhythmic electrochemicaloscillators to coordinate and order physiological processes. Or group’s primary research interests are...

The Arthur lab is interested in mechanisms by which inflammation alters the functional capabilities of the microbiota, with the long-term goal of targeting resident microbes as a preventative and therapeutic strategy to lessen inflammation and reduce the risk of colorectal cancer. We utilize a unique and powerful in vivo system...

It is estimated that less than 2% of the human genome codes for a functional protein.  Scattered throughout the rest of the genome are regulatory regions that can exert control over genes hundreds of thousands of base pairs away through the formation of DNA loops.  These loops regulate virtually all...

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.,Our laboratory studies an amazing regulatory factor known as NF-kappaB. This transcription factor controls key developmental and immunological functions...

Our research group utilizes the nematode C. elegans to investigate germ cell immortality: mechanisms that allow germ cells remain eternally youthful as they are transmitted from one generation to the next. We also study how telomerase functions at chromosome termini, as well as the consequences of telomere dysfunction.,Our research group...