The broad focus of the Alt lab is the elucidation of mechanisms that generate antigen receptor diversity in the Immune system and mechanisms that maintain... Read more about Frederick W. Alt
Our lab’s long-term goal is to create a novel gene therapy-based therapeutic to preserve and restore healthy vision for patients suffering from diseases that... Read more about Ryoji Amamoto
Though much of what defines a human is encoded in the sequence of our DNA, many additional factors influence how this genetic information is manifest. For... Read more about Bradley E. Bernstein
Assistant Professor of Stem Cell and Regenerative Biology
Our laboratory seeks to advance our understanding of gene regulation biology using single-cell methods. To do this, we develop new technologies that integrate... Read more about Jason Daniel Buenrostro
Although numerous eukaryotic genomes have been sequenced, much still remains to be understood about how the genes in those genomes are regulated. The...
The step-by-step differentiation of embryonic cells into different types of neurons lays the foundation for our sensory responses, motor commands, and...
Our laboratory is using cellular, molecular, bioengineering, and computational biology tools to understand how mechanical forces generated by the flow of...
Director, Wyss Institute for Biologically Inspired Engineering
My laboratory is interested in how microenvironmental cues, particularly mechanical forces and extracellular matrix, regulate tissue development, physiology... Read more about Donald Elliot Ingber
Assistant Professor of Otolaryngology Head and Neck Surgery
The Koehler Lab focuses on understanding the development and regeneration of sensory organs. Our primary goal is to elucidate how cells from various...
My laboratory uses a stem cell based approach to understand neurodegenerative diseases, particularly orphan diseases such as Spinal Muscular Atrophy, so that... Read more about Lee L. Rubin
Professor of Biological Chemistry and Molecular Pharmacology
We are interested in how kinases in general, and phosphatidylinositol 3-kinases (PI3K) in particular, control malignant transformation. The work of our...