Modern Technologies from next-gen sequencing to high resolution imaging have advanced our knowledge of kidney development, function, and disease. We are among the pioneers utilizing techniques such as CHIP-seq, RNA-seq, modern genome editing, and imaging to understand how regulatory programs control progenitor populations during kidney development. Our goal is to understand how these programs contribute to progenitor specification and maintenance, and how they are altered during disease and aging. Our ultimate goal is translational applications of our research to develop new therapeutics and regenerative strategies.