My group is broadly interested in the evolution of transcriptional networks in animals. Whole genome sequence for a wide variety of organisms has shown us...
The Ebert laboratory focuses on the molecular basis and treatment of hematologic malignancies, with a particular focus on myelodysplastic syndromes (MDS...
Gregor Mendel Professor of Genetics and of Medicine
A major area of our interest is how eukaryotic cells sense and respond to stress in the form of damage to their genetic material. When cells incur DNA...
The molecular mechanisms underlying neurodegeneration in human disorders like Alzheimer's disease and Parkinson's disease remain mysterious, in part...
Assistant Professor of Stem Cell and Regenerative Biology
RNA is an ancient and universal biopolymer that is involved in nearly every aspect of biology. Next to nucleic acids, proteins, and lipids, glycans are...
We work on positive strand RNA viruses, with a current focus on understanding how cells sense viral invaders to initiate an immune response. We also have...
Our lab focuses on the molecular nature of innate immune interactions between microbial pathogens and the host. Pathogenic bacteria have evolved complex...
My lab is interested in how non-genetic information can be transmitted across generations. An increasing number of complex phenotypes, such as physical...
Professor of Biological Chemistry and Molecular Pharmacology
RNA biogenesis and decay mechanisms in stem cells and diseaseOur goal is to understand molecular and cellular mechanisms controlling RNA biogenesis and decay... Read more about Richard I. Gregory
The brain, which represents 2% of the body mass but consumes 20% of the body energy at rest, is therefore highly dependent on oxygen and nutrients supply...
Bullard Professor of Neurogenetics in the Department of Genetics
My laboratory is focused on understanding nervous system disease using molecular genetic strategies, beginning with human patients and proceeding through...
Kurt J. Isselbacher/Peter D. Schwartz Professor of Oncology
Our laboratory is interested in the genetics of human cancer. Current projects include the use of a microfluidic device to capture circulating tumor cells...
The Hacohen lab consists of immunologists, geneticists, biochemists, technologists, physicians and computational biologists working together to develop...
Recent advances in genomics now make it possible to consider enumerating all of the genetic lesions in specific cancers. High throughput approaches are...
The long-term goal of my laboratory is to identify and evaluate genetic determinants underlying inherited retinal diseases and develop appropriate therapeutic... Read more about Neena B. Haider
