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Principal Investigator

About Our Lab

Affiliation
Stanford University
Research Interests
Neurodegeneration, protein aggregation, genetic screens

Protein folding is critically important for all life, from microbes to man. A bafflingly diverse set of cellular mechanisms has evolved to coordinate this exquisitely sensitive process. Not unexpectedly, problems in protein folding are the root cause of many of the most devastating diseases, which represent a major challenge to public health worldwide, especially as our population continues to age. Referred to collectively as protein-misfolding disorders, these truly disastrous neurodegenerative diseases include Alzheimer’s disease, Parkinson’s disease and ALS (Lou Gehrig’s disease). Understanding at a mechanistic level the cellular consequences of protein misfolding will help to suggest potential strategies for therapeutic intervention. We use the baker’s yeast, Saccharomyces cerevisiae, as a model system to study the cell biology underpinning protein-misfolding diseases. Since dealing with misfolded proteins is an ancient problem, we hypothesize that the mechanisms employed to cope with them are likely conserved from yeast to man. Our long-term goal is to identify the critical genes and cellular pathways affected by misfolded human disease proteins

Protocol Portfolio