Gerty Cori | |
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Gerty Cori in 1947
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Born |
Gerty Theresa Radnitz August 15, 1896 Prague, Austro-Hungarian Empire |
Died | October 26, 1957 Glendale, Missouri, USA |
(aged 61)
Cause of death | Myelosclerosis |
Residence | United States |
Nationality | Austrian-Hungarian |
Other names | Gerty Theresa Cori |
Citizenship | United States |
Alma mater | Karl-Ferdinands-Universität in Prague |
Occupation | Biochemist |
Known for | Extensive research on carbohydrate metabolism; described the Cori cycle; identified Glucose 1-phosphate |
Spouse(s) | Carl Ferdinand Cori (m. 1920–57) |
Awards | Many awards and recognitions, including Nobel Prize in Physiology or Medicine (1947) Garvan–Olin Medal (1948) |
Gerty Theresa Cori (née Radnitz; August 15, 1896 – October 26, 1957) was a Czech-American biochemist who became the third woman—and first American woman—to win a Nobel Prize in science, and the first woman to be awarded the Nobel Prize in Physiology or Medicine.
Cori was born in Prague (then in the Austro-Hungarian Empire, now the Czech Republic). Gerty was not a nickname, but rather she was named after an Austrian warship. Growing up at a time when women were marginalized in science and allowed few educational opportunities, she gained admittance to medical school, where she met her future husband Carl Ferdinand Cori; upon their graduation in 1920, they married. Because of deteriorating conditions in Europe, the couple emigrated to the United States in 1922. Gerty Cori continued her early interest in medical research, collaborating in the laboratory with Carl. She published research findings coauthored with her husband, as well as publishing singly. Unlike her husband, she had difficulty securing research positions, and the ones she obtained provided meager pay. Her husband insisted on continuing their collaboration, though he was discouraged from doing so by the institutions that employed him.
With her husband Carl and Argentine physiologist Bernardo Houssay, Gerty Cori received the Nobel Prize in 1947 for the discovery of the mechanism by which glycogen—a derivative of glucose—is broken down in muscle tissue into lactic acid and then resynthesized in the body and stored as a source of energy (known as the Cori cycle). They also identified the important catalyzing compound, the Cori ester. In 2004, both Gerty and Carl Cori were designated a National Historic Chemical Landmark in recognition of their work in clarifying carbohydrate metabolism.