Konrad Emil Bloch
Konrad Emil Bloch, ForMemRS (21 January 1912 – 15 October 2000) was a German American biochemist. Bloch received the Nobel Prize in Physiology or Medicine in 1964 (joint with Feodor Lynen) for discoveries concerning the mechanism and regulation of the cholesterol and fatty acid metabolism.
|Konrad Emil Bloch|
|Born||21 January 1912 |
|Died||15 October 2000 (aged 88)|
|Awards||Nobel Prize in Physiology or Medicine|
Life and careerEdit
Bloch was born in Neisse (Nysa), in the German Empire's Prussian Province of Silesia. He was the second child of middle-class parents Hedwig (Striemer) and Frederich D. "Fritz" Bloch. From 1930 to 1934, he studied chemistry at the Technical University of Munich. In 1934, due to the Nazi persecutions of Jews, he fled to the Schweizerische Forschungsinstitut in Davos, Switzerland, before moving to the United States in 1936. Later he was appointed to the department of biological chemistry at Yale Medical School.
In the United States, Bloch enrolled at Columbia University, and received a Ph.D in biochemistry in 1938. He taught at Columbia from 1939 to 1946. From there he went to the University of Chicago and then to Harvard University as Higgins Professor of Biochemistry in 1954, a post he held until 1982. After retirement at Harvard, he served as the Mack and Effie Campbell Tyner Eminent Scholar Chair in the College of Human Sciences at Florida State University.
Bloch shared the Nobel Prize in Physiology or Medicine in 1964 with Feodor Lynen, for their discoveries concerning the mechanism and regulation of the cholesterol and fatty acid metabolism. Their work showed that the body first makes squalene from acetate over many steps and then converts the squalene to cholesterol. He traced all the carbon atoms in cholesterol back to acetate. Some of his research was conducted using radioactive acetate in bread mold: this was possible because fungi also produce squalene. He confirmed his results using rats. He was one of several researchers who showed that acetyl Coenzyme A is turned into mevalonic acid. Both Bloch and Lynen then showed that mevalonic acid is converted into chemically active isoprene, the precursor to squalene. Bloch also discovered that bile and a female sex hormone were made from cholesterol, which led to the discovery that all steroids were made from cholesterol. His Nobel Lecture was "The Biological Synthesis of Cholesterol."
Bloch and his wife Lore Teutsch first met in Munich. They married in the U.S. in 1941. They had two children, Peter Conrad Bloch and Susan Elizabeth Bloch, and two grandchildren, Benjamin Nieman Bloch and Emilie Bloch Sondel. He was fond of skiing, tennis, and music. Konrad died in Lexington, Massachusetts of congestive heart failure in 2000, aged 88. Lore Bloch died in 2010 aged 98.
- Westheimer, F. H.; Lipscomb, W. (2002). "Konrad Bloch. 21 January 1912 - 5 October 2000". Biographical Memoirs of Fellows of the Royal Society. 48: 43. doi:10.1098/rsbm.2002.0003.
- Bloch, K. (1987). "Summing Up". Annual Review of Biochemistry. 56: 1–19. doi:10.1146/annurev.bi.56.070187.000245. PMID 3304130.
- "Konrad Bloch Biography (1912-)". Internet FAQ Archive. Retrieved 2013-11-14.
- S. Bergström (1964-12-11). "The 1964 presentation speech of the Nobel Prize for Physiology or Medicine". Retrieved 2013-11-14., quoted by Larry Moran at Sandwalk blog in "Nobel Laureates: Konrad Bloch and Feodor Lynen," 2007-11-21.
- Bloch, Konrad E. (2013). "Nobel Lecture: The Biological Synthesis of Cholesterol". Nobelprize.org. Nobel Media AB. Retrieved 2013-11-14.
- National Science Foundation
- Nobel Prize Biography
- Konrad Bloch, Nobel Lecture, The biological synthesis of cholesterol, 11 December 1964
- Eugene P. Kennedy, «Konrad Bloch», Biographical Memoirs – Proceedings of the American Philosophical Society (vol. 147, no. 1, 2003, pp. 67–72)
- Center for Oral History. "Konrad E. Bloch". Science History Institute.
- Bohning, James H. (22 March 1993). Konrad E. Bloch, Transcript of an Interview Conducted by James H. Bohning at Harvard University on 22 March 1993 (PDF). Philadelphia, PA: Chemical Heritage Foundation.