Small molecules from the human microbiota. Many of the most widely used human medicines come from soil and marine bacteria, including treatments for cancer, infectious disease, diabetes, and organ transplant. We have recently found that bacteria from a surprisingly underexplored niche -- the human body -- are prolific producers of drug-like small molecules. We are identifying small molecules from gut- and skin-associated bacteria, studying their biosynthetic genes, and characterizing the roles they play in human biology and disease.
Using synthetic ecology to control microbiome metabolism. One of the most concrete contributions the microbiome makes to human biology is to synthesize dozens of metabolites, many of which accumulate in human tissues at concentrations similar to what is achieved by a drug. We are engineering gut and skin bacterial species to produce new molecules, and constructing synthetic communities whose molecular output is completely specified.
Associate Professor
Stanford Departments and Centers:
Bioengineering
Research Interests: