Carl Woese
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- Carl R. Woese Institute for Genomic Biology - About Zoran Zivkovic
- Proceedings of the National Academy of Sciences - Woese and Fox: Life, Rearranged
- National Center for Biotechnology Information - PubMed Central - Carl Woese
- The New York Times - Carl Woese Dies at 84; Discovered Life’s ‘Third Domain’
- Los Angeles Times - Carl Woese Dies at 84; Discovered Life’s ‘Third Domain’
- Also called:
- Carl R. Woese
- In full:
- Carl Richard Woese
- Awards And Honors:
- National Medal of Science (2000)
- Subjects Of Study:
- archaea
Carl Woese (born July 15, 1928, Syracuse, New York, U.S.—died December 30, 2012, Urbana, Illinois) American microbiologist who discovered the group of single-cell prokaryotic organisms known as archaea, which constitute a third domain of life.
Woese attended Amherst College in Massachusetts, where he received a bachelor’s degree in mathematics and physics in 1950. He then began his graduate studies in the biophysics department at Yale University, receiving a doctorate in 1953. After stints as a researcher at Yale (1953–60), the General Electric Research Laboratory (1960–63), and the Pasteur Institute in Paris (1962), Woese joined the faculty at the University of Illinois at Urbana-Champaign (1964). There he held the Stanley O. Ikenberry Endowed Chair.
Prior to 1977 and Woese’s seminal paper in Proceedings of the National Academy of Sciences, many biologists believed that all life on Earth belonged to one of two primary lineages—the eukaryotes, which included animals, plants, fungi, and some single-cell organisms, and the prokaryotes, which included bacteria and all remaining microscopic organisms. Woese, working with American microbiologist Ralph S. Wolfe, determined that prokaryotes actually comprise two distinctly different groups of organisms and should be divided into two categories: true bacteria (eubacteria) and the newly recognized archaebacteria, later renamed archaea. Archaea are aquatic or terrestrial microorganisms that differ both biochemically and genetically from true bacteria. Many of these organisms thrive in extreme environments, including those that are very hot or that have a high degree of salinity. Some of these organisms live in the absence of oxygen and thus are described as being anaerobic. Because such conditions resemble Earth’s early environment, archaea were thought to hold important information about the evolution of cells.
In 1996 Woese and colleagues from the University of Illinois and the Institute for Genomic Research in Rockville, Maryland, published the first complete genome, or full genetic blueprint, of an organism in the archaea domain and concluded that archaea are more closely related to eukaryotes than to bacteria. The publication of the genome helped to quell ongoing resistance to the idea of a third domain of life in the scientific community. In two papers that were published in 1998 and 2000, Woese proposed a new model to replace the standard Darwinian theory of common descent—that all life on Earth evolved from a single cell or pre-cell. Woese proposed instead that various forms of life evolved independently from as many as several dozen ancestral pre-cells. A 2004 paper further postulated that Darwinian natural selection did not become a factor in evolution until more complex life-forms evolved. Woese argued that in the early stages of the development of life, all organisms engaged in horizontal gene transfer and were not in competition.
Woese’s many honours included a MacArthur fellowship (1984); election to the National Academy of Sciences (1988); the Dutch Royal Academy of Science’s Leeuwenhoek Medal, the highest honour in microbiology (1992); and the U.S. National Medal of Science (2000). Woese was awarded the annual $500,000 Crafoord Prize in Biosciences in 2003 in recognition of his discovery of the archaea. He was elected to the Royal Society in 2006.