Irving Lerner Weissman is a researcher and professor in developmental biology at the Stanford University School of Medicine in Stanford, California. Weissman is also a professor of pathology and Virginia & D. K. Ludwig professor of clinical investigation in cancer at the Stanford University School of Medicine. Weissman studies the biology of stem cells and immune cells and has conducted research in those fields during the late twentieth and early twenty-first centuries. In the late 1980s, Weissman’s team developed methods to identify hematopoietic stem cells, or HSCs, which give rise to the body’s blood and immune cells. Also, in the early 2000s, Weissman also co-authored California’s Proposition 71, which secured three billion dollars in state funding for stem cell research after the federal government restricted human embryonic stem cell work. Weissman’s efforts have demonstrated the therapeutic potential of stem cell transplantation in the treatment of diseases, including blood cancer.

A genome-wide association study, or GWAS, is a method for identifying variations in DNA that may contribute to the development of a particular trait, such as a disease. A GWAS relies on identifying statistical correlations between many, often thousands of, DNA markers and a particular trait. Scientists employ GWASs to try to identify the genetic contributions to complex traits, such as common human diseases. Complex traits are ones that scientists suspect are the result of multiple genes and environmental inputs acting together, in contrast to simple, Mendelian disorders that result primarily from the disturbance of a single gene. The genetic variants identified through a GWAS typically account for only a small proportion of the expected genetic contribution to a complex trait, which scientists refer to as the missing heritability problem. Since 2006, scientists have conducted thousands of GWASs aimed at identifying the genetic contributions to complex traits and have identified many thousands of genetic variations that correlate with those traits, although as of 2025, because of the missing heritability problem and other limitations, the concrete contributions of GWASs to medicine have so far been modest.