Thomas D. Brock

Thomas D. Brock

Brock in July 2002, Yellowstone Park
Born (1926-09-10)10 September 1926
Cleveland, Ohio, United States
Nationality American
Fields Microbiology
Institutions The Upjohn Company
Case Western Reserve University
Indiana University
University of Wisconsin–Madison
Alma mater Ohio State University
Doctoral advisor William D. Gray
Known for Thermophilic bacteria
Thermus aquaticus
Notable awards Golden Goose Award (2013)

Thomas Dale Brock (born September 10, 1926) is an American microbiologist known for his discovery of hyperthermophiles living in hot springs at Yellowstone National Park. In the late 1960s, Brock discovered high-temperature bacteria living in the Great Fountain region of Yellowstone, and with his colleague Hudson Freeze, they isolated a sample they named Thermus aquaticus.[1] "Life at High Temperatures", a 1967 article summarizing his research, was published in the journal Science and led to the study of extremophiles, organisms that live in extreme environments. By 1976, T. aquaticus was found useful for artificially amplifying DNA segments. Brock's discoveries led to great progress in biology, contributed to new developments in medicine and agriculture, and helped create the new field of biotechnology.[2]

Early life

Thomas Dale Brock was born in Cleveland, Ohio, on September 10, 1926, the only child of Helen Sophia Ringwald, of Chillicothe, Ohio, and Thomas Carter Brock, of Toronto, Canada. Though Cleveland was an industrial city, his home was situated near a farm and forested park with views of Lake Erie, so that he grew up in an "idyllic environment", surrounded by nature.

Brock's father, who had never received a formal education, had encouraged Brock to pursue university, and taught Brock how to assemble electrical equipment. At the age of 10, Brock received a chemistry set as a Christmas present, and his father helped him set up a basement laboratory. When Brock was 15, his father became seriously ill, and the family moved back to his mother's home in Ohio. Months later, Brock's father died, leaving the family in a state of poverty. Brock immediately went to work for $0.25 per hour to support himself and his mother in various odd jobs.[3]

Although Brock had decided to attend college and become a chemist, World War II was in progress. After graduating from high school, Brock joined the United States Navy and spent more than a year in their electronics program.[3]

Under the G.I. Bill, Brock began attending Ohio State University in 1946, initially with aspirations of becoming a writer, yet still drawn to chemistry and science. He earned a B.Sc. (1949), M.Sc. (1950), and Ph.D. (1952) in botany,[4] specializing in experimental mycology and yeast physiology. His graduate work centered on the mushroom Morchella esculenta and the yeast Hansenula anomala.

Career

After completing his Ph.D, Brock took a position in the antibiotics research department at the Upjohn Company in Kalamazoo, Michigan, where out of necessity he became self-taught in microbiology and molecular biology. By the time he left Upjohn, he had published six papers in respectable journals and become a member of the Society of American Bacteriologists. In 1957, Brock joined the faculty of the Department of Biology at Western Reserve University. In 1960, he accepted the position of assistant professor of bacteriology at Indiana University, where he was promoted to full professorship in 1964. He moved to the University of Wisconsin–Madison in 1971 and became chairman of the Department of Bacteriology in 1979.[3][4]

Bacteria are able to grow ... at any temperature at which there is liquid water, even in pools which are above the boiling point.[5]

Thomas D. Brock, 1967

From 1965 through 1975, Brock conducted field and laboratory research on thermophilic microorganisms in Yellowstone National Park, funded by a grant from the National Science Foundation. From a sample of pink bacteria collected from Mushroom Spring, Brock and undergraduate student Hudson Freeze isolated an organism thriving at 70 °C (160 °F) which they named Thermus aquaticus. The ability of T. aquaticus to tolerate high heat would, 20 years later, make possible the invention of a procedure called polymerase chain reaction. PCR utilizes an enzyme in T. aquaticus, now known as Taq polymerase, to speed up DNA replication. The process, invented by Kary Mullis, won a Nobel Prize.[6]

In 1998, Brock helped update and contribute to a new version of René Dubos' 1960 book, Pasteur and Modern Science. In 1999, he translated and edited Milestones in Microbiology 1546 to 1940, a collection of the most important papers in early microbiology, including work by Antonie van Leeuwenhoek, Louis Pasteur, Robert Koch, and Joseph Lister. Also released in the same year was Brock's Robert Koch: A Life in Medicine and Bacteriology, a biography of German physician Robert Koch.

Brock is retired and holds the E.B. Fred Professor of Natural Sciences Emeritus at the University of Wisconsin–Madison. During his career, Brock published more than 250 papers and 20 books, and received numerous science and education awards.

The thermophilic bacterial species, Thermoanaerobacter brockii, is named after Brock.[7]

Pleasant Valley Conservancy

Brock and his wife, Kathie, operate Pleasant Valley Conservancy State Natural Area, a 140-acre (57 ha) preserve in western Dane County, Wisconsin. It consists of extensive restored oak savannas, dry, mesic, and wet prairies, wetlands, and oak woods. Scenic views and wildlife viewing are excellent, and several trails provide ready access to the Preserve. Especially noteworthy at Pleasant Valley are the fine oak savannas, once common in the Midwest but now very rare. The Preserve has many large open-grown white and bur oaks, which can be viewed from Pleasant Valley Road, and seen close up from the trails. The herbaceous layer in the savanna is highly diverse.[8]

Awards

Selected works

References

  1. Brock, Thomas D. (March 1998). "Early Days in Yellowstone Microbiology" (PDF). ASM News (American Society for Microbiology) 64 (3): 137–140.
  2. Snyder, Brian (October 2007). "Why the NSF Biology Budget Should Be Doubled". BioScience (American Institute of Biological Sciences) 57 (9): 727–728. doi:10.1641/B570902. ISSN 0006-3568.
  3. 1 2 3 Brock, Thomas D. (October 1995). "The road to Yellowstone - and beyond". Annual Review of Microbiology 49 (1): 1–29. doi:10.1146/annurev.mi.49.100195.000245. PMID 8561455.
  4. 1 2 Meyer, Bernard S. (1983). Botany at the Ohio State University: The First 100 Years. College of Biological Sciences, Ohio State University. pp. 151–152. ISBN 9780867270969.
  5. Brock, Thomas D. (November 24, 1967). "Life at high temperatures." Science. 158: 1012-1019.
  6. Stephenson, Shauna (2007-08-17). "Thermus Aquaticus". Outdoors (Wyoming Tribune Eagle). Retrieved 2009-01-18.
  7. Gross, Michael (2001). Life on the Edge: Amazing Creatures Thriving in Extreme Environments. Basic Books. pp. 16–17. ISBN 0738204455.
  8. Pleasant Valley Conservancy State Natural Area
  9. American Society for Microbiology website
  10. (May 1988). BioScience. 38(5):363-366. ISSN 0006-3568
  11. American Society for Microbiology website
  12. Illinois Society for Microbiology website
  13. Bergey's Trust website
  14. Waksman Foundation website
  15. UW Arboretum website
  16. "Thermus Aquaticus". The Golden Goose Award. Retrieved 2015-05-27.

Further reading

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