Unparalleled Faculty

Physiology or Medicine • 2013
MD, Avram Goldstein Professor of Molecular and Cellular Physiology at the School of Medicine

Won for his work in exploring how neurons in the brain communicate with one another across synapses. Shared the award with James Rothman, a former Stanford professor of biochemistry, and Randy Schekman, who received his doctorate at Stanford under Nobel winner Arthur Kornberg. Südhof has identified integral protein components critical to the membrane fusion process. He purified protein constituents sticking out of neurotransmitter-containing vesicles, protruding from nearby presynaptic-terminal membranes, or bridging them. Using biochemical, genetic, and physiological techniques, he then elucidated how interactions among these proteins contribute to carefully orchestrated membrane fusion. As a result, synaptic transmission is one of the best-understood phenomena in neuroscience, helping us to understand how synapse communication leads to learning on a larger scale. Stanford community profile

Chemistry • 2013
PhD, Professor of Structural Biology and Robert W. and Vivian K. Cahill Professor in Cancer Research in the School of Medicine

Won for the development of multiscale models for complex chemical systems. With Martin Karplus, PhD of the University of Strasbourg in France and Harvard University, and Arieh Warshel, PhD, of the University of Southern California. Levitt's work focuses on theoretical, computer-aided analysis of protein, DNA and RNA molecules responsible for life at its most fundamental level. Applying known three-dimensional structures and basic principles of physical chemistry as complementary guidelines, this modeling can, for example, predict a protein's molecular structure on the basis of that protein's amino-acid sequence. Delineating the precise molecular structures of biological molecules is a necessary first step in understanding how they work and in designing drugs to alter their function. Stanford community profile

Chemistry • 2012
MD, Professor and Chair of Molecular and Cellular Physiology at the School of Medicine

Won for his work on the structure and mechanism of action of G-protein-coupled-receptors (GPCRs). He shares the prize with his former postdoctoral advisor, Robert Lefkowitz of Duke University. Kobilka was the first to crystallize and analyze the molecular structure of the β2-adrenergic receptor. GPCRs are important targets for pharmaceutical therapeutics, but notoriously difficult to study using X-ray crystallography. The β2-adrenergic receptor structure was soon followed by the determination of the molecular structure of several other G-protein coupled receptors. Stanford community profile

Physiology or Medicine • 2006
George D. Smith Professor in Molecular and Genetic Medicine and Professor of Pathology and Genetics

Along with Craig Mello of the University of Massachusetts Medical School, won the Nobel Prize for Physiology or Medicine in 2006. The pair is part of a team of researchers credited with recognizing that certain RNA molecules can be used to turn off specific genes in animal cells. The discovery, made while Fire was at the Carnegie Institution's Department of Embryology in Baltimore, marked the first time that biologists were able to selectively "silence" the voice of one gene in the cacophony of the tens of thousands that give a cell its marching orders from development to death. Their description of the process, called RNA interference or RNAi, in Nature (1998) jumpstarted a new biological field by opening up previously inaccessible areas of research. Stanford community profile

Chemistry • 2006
Professor of Structural Biology at the Stanford School of Medicine

Won for his work in understanding how DNA is converted into RNA, a process known as transcription. In 2001, Kornberg published the first molecular snapshot of the protein machinery responsible-RNA polymerase-in action. The finding helped explain how cells express all the information in the human genome and how that expression sometimes goes awry, leading to cancer, birth defects, and other disorders. Stanford community profile

Chemistry • 1980
Robert W. and Vivian K. Cahill Professor of Cancer Research, Emeritus, and Director Emeritus of the Beckman Center for Molecular and Genetic Medicine

Won for his "fundamental studies of the biochemistry of nucleic acids, with particular regard to recombinant DNA," in the words of the selection committee.* Since receiving the prize, Berg has continued to conduct research in the Department of Biochemistry, where his focus is the mechanism of repairing DNA damage. He continues to influence federal policy regarding stem-cell research, biotechnology, and human cloning. Stanford community profile

Medicine • 1959
Professor of biochemistry at the School of Medicine. Passed away in 2007.

Won with Severo Ochoa for their discovery of the mechanisms in the biological synthesis of ribonucleic acid and deoxyribonucleic acid. Kornberg unearthed how the large amounts of DNA in a chromosome get constructed in the cell. Together, they discovered new enzymes that create the building blocks of DNA as well as the enzyme that assembles those building blocks, which Kornberg named DNA polymerase. Their work was fundamental to the creation of recombinant DNA and genetic engineering, and is the basis for many drugs used to treat cancer and viral infections today. Obituary

Medicine • 1958
Former Chair of Genetics. Passed away in 2008.

Joined Stanford to become the chair of genetics in 1959, months after sharing the Nobel Prize for his discovery that bacteria transfer genetic information, contrary to the thought that they do not exchange DNA. He demonstrated that bacteria exchange loops of DNA called plasmids, allowing them to pick up new genes and thus adapt to their environments. Lederberg's work revolutionized how researchers thought about infectious disease, paving the way for modern molecular biology, genetic engineering, and biotechnology. Obituary