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Thomas Hunt Morgan

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Thomas Hunt Morgan
Johns Hopkins yearbook of 1891
Born 25 September 1866
Lexington, Kentucky
Died 4 December 1945
Pasadena, California

Thomas Hunt Morgan (September 25, 1866December 4, 1945) was an American geneticist and embryologist. Morgan received his PhD from Johns Hopkins University in 1891 and researched embryology during his tenure at Bryn Mawr. Following the rediscovery of Mendelian inheritance in 1900, Morgan's research moved to the study of mutation in the fruit fly Drosophila melanogaster. In his famous Fly Room at Columbia University Morgan was able to demonstrate that genes are carried on chromosomes and are the mechanical basis of heredity. These discoveries formed the basis of the modern science of genetics. When he was awarded the Nobel Prize in Physiology or Medicine in 1933 he was the first person awarded the Prize for genetics, for demonstrating hereditary transmission mechanisms in D. melanogaster.

During his distinguished career Morgan wrote 22 books and 370 scientific papers, and as a result of his work Drosophila became a major model organism in contemporary genetics. The Division of Biology he established at the California Institute of Technology produced seven Nobel Prize winners.

Contents

[edit] Early life

Morgan was born in Lexington, Kentucky to Charlton Hunt Morgan and Ellen Key Howard. Part of a long line of Southern aristocracy, Thomas Hunt Morgan was a nephew of Confederate General John Hunt Morgan and his great-grandfather John Wesley Hunt had been the first millionaire west of the Allegheny Mountains. He was also a great-grandson of Francis Scott Key author of the "Star Spangled Banner". However following the Civil War the family had fallen on harder times with the loss of civil and property rights for those who aided the Confederacy. His father also had difficulty finding work in politics and spent much of his time coordinating veterans reunions.

Beginning at 16 in the Preparatory Department, Morgan attended the State College of Kentucky (now the University of Kentucky). There, he focused on science; he particularly enjoyed natural history, and worked with the U.S. Geological Survey in his summers. He graduated as valedictorian in 1886 and was the only student[citation needed] to graduate with a bachelor of science.[1] Following a summer at the Marine Biology School in Annisquam, Massachusetts, Morgan began graduate studies in zoology at the recently founded Johns Hopkins University, the first research-oriented American university. After two years of experimental work with morphologist William Keith Brooks and several publications Morgan was eligible to receive a master of science from the State College of Kentucky in 1888, the College required two years study at another institution and an examination by the College Faculty.[citation needed] The College offered Morgan a full professorship; however, he choose to stay at Johns Hopkins and was awarded a relatively large fellowship to help him fund his studies.[citation needed]

Under Brooks, Morgan completed his thesis work on the embryology of sea spiders—collected during the summers of 1889 and 1890 at the Marine Biological Laboratory in Woods Hole, Massachusetts—to determine their phylogenic relationship with other arthropods. He concluded that with respect to embryology they were more closely related to spiders than crustaceans. Based on the publication of this work Morgan was awarded his Ph.D. from Johns Hopkins in 1891, and was also awarded the Bruce Fellowship in Research. With the fellowship he was able to travel to Jamaica, the Bahamas and to Europe to conduct further research.[2]

[edit] Bryn Mawr

In 1891, Morgan was appointed associate professor (and head of the biology department) at Johns Hopkins' sister school Bryn Mawr, replacing his colleague E. B. Wilson. Morgan taught all morphology-related courses, while the other member of the department, Jacques Loeb, taught the physiological courses; though Loeb only stayed for one year, it was the beginning of a lifelong friendship.[3] Morgan lectured in biology 5 days a week, giving two lectures a day. He frequently included his own recent research in his lectures, and although he was an enthusiastic teacher, his true interests were in the laboratory. During the first few years at Bryn Mawr he produced descriptive studies of sea acorns, ascadian worms and frogs.

The Stazione Zoologica in Naples, where Morgan studies ctenophore embryology
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The Stazione Zoologica in Naples, where Morgan studies ctenophore embryology

In 1894 Morgan was granted a year's absence to conduct research in the laboratories of Stazione Zoologica in Naples, where Wilson had worked two years earlier. At the laboratory in Naples he worked with German biologist Hans Driesch, whose research in the experimental study of development piqued Morgan's interest. Among other projects that year, Morgan completed an experimental study of ctenophore embryology. From his exposure in Naples and through Loeb to the Entwicklungsmechanik (roughly, "developmental mechanics") school of experimental biology—a reaction to the vitalistic Naturphilosophie that was exteremly influential in 19th century morphology—Morgan's work shifted from traditional, largely descriptive morphology to an experimental embryology that sought physical and chemical explanations for organismal development.[4]

At the time there was considerable scientific debate over the question of how an embryo developed. Following Wilhelm Roux's mosaic theory of development, some believed that hereditary material was divided among embryonic cells, which were then predestined to form particular parts of a mature organism. Driesch and others thought that development was due to epigenetic factors where interactions between the protoplasam and the nucleus of the egg and the environment could affect development. Morgan was in the later camp; his work with Driesch demonstrated that blastomeres isolated from sea urchin and ctenophore eggs could develop into complete larvae, contrary to the predictions (and experimental evidence) of Roux's supporters.[5] A related debate involved the role of epigenetic and environmental factors in development; on this front Morgan showed that sea urchin eggs could be induced to divide without fertilization by adding magnesium chloride, work which was continued by Jacques Loeb (who became well known for creating fatherless frogs using the method).[citation needed]

Morgan returned to Bryn Mawr in 1895 and was promoted to full professor. Morgan's main lines of experimental work involved regenation and larval development; in each case, his goal was to distinguish internal and external causes to shed light on the Roux-Driesch debate. He wrote his first book, The Development of the Frog's Egg, published in 1897. He began a series of studies on different organisms ability to . He looked at grafting and regeneration in tadpoles, fish and earthworms and in 1901 this work was published as Regeneration. Beginning in 1900, he started working on the problem of sex determination; he was also continued to study the evolutionary problems that had been the focus of his earliest work.[6]

On June 4, 1904, Morgan married Lilian Vaughan Sampson (1870-1952), who had entered graduated school in biology at Bryn Mawr the same year Morgan joined the faculty; she put aside her scientific work in the early years of their marriage, but would later contribute significantly to Morgan's Drosophila work. Later in 1904, E. B. Wilson—still blazing the path for his younger friend—invited Morgan to join him at Columbia University, which at last freed him to focus fully on experimental work.[7]

[edit] Columbia University

In a typical Drosophila genetics experiment male and female flies with known phenotypes are put in a jar to mate; females must be virgins. Eggs are layed in porridge that the larva will feed on; when the life cycle is complete the progeny are scored for inheriance of the trait of interest.
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In a typical Drosophila genetics experiment male and female flies with known phenotypes are put in a jar to mate; females must be virgins. Eggs are layed in porridge that the larva will feed on; when the life cycle is complete the progeny are scored for inheriance of the trait of interest.

By 1904, when Morgan took a professorship in experimental zoology at Columbia University, he was becoming increasingly focused on the mechanisms of heredity and evolution. The previous year, he had published Evolution and Adaption; like many biologists at that time, he saw clear evidence for biological evolution (as in the common descent of similar species) but rejected Darwin's proposed mechanism of natural selection acting on small, constantly-produced variations. Extensive work in biometry seemed to indicate that continuous natural variation had distinct limits and did not represent heritable changes. Embryological development posed an additional problem in Morgan's view, as selection could not act on the early, incomplete stages of highly complex organs such as the eye. The common solution of the Larmarckian mechanism of inheritance of acquired characters, which featured prominently in Darwin's theory, was increasingly rejected by biologists. According to Morgan biographer Garland Allen, he was also hindered by his views on taxonomy: he thought that species were entirely artificial creations that distorted the continuously variable range of real forms, while he held a "typological" view of larger taxa and could see no way that one such group could transform into another. But while he would remain skeptical of natural selection for many years, his theories of heredity and variation were radically transformed through his conversion to Mendelism.[8]

In 1900 three scientists, Carl Correns, Erich von Tschermak and Hugo De Vries had rediscovered the work of Gregor Mendel, and with it the foundation of genetics. De Vries had gone on to propose that new species are created by mutation, bypassing the need for either Larmackism or Darwinism. Morgan dismissed both of these evolutionary theories, and was actually seeking to prove Hugo De Vries' mutation theory with his experimental heredity work. He was initially quite skeptical of Mendel's laws of heredity (as well as the related chromosomal theory of sex determination), which were being considered as a possible basis for natural selection.

Sex linked inheritance of the white eyed mutation.
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Sex linked inheritance of the white eyed mutation.

Following C. W. Woodworth and William E. Castle, around 1907 Morgan started working on the fruit fly Drosophila melanogaster, and encouraging students to do so as well. With Fernandus Payne, he mutated Drosophila through physical, chemical, and radiational means, and began cross-breeding experiments to find heritable mutations. However, they had no significant success for two years.[9] Castle had also had difficulty identifying mutations in Drosophila, hardly unusual given the flies' tiny size. Finally in 1909, a series of heritable mutants appeared, some of which displayed Mendelian inheritance patterns; in 1910 Morgan noticed a white-eyed mutant male among the red-eyed wild types. When white-eyed flies were bred with a red-eyed female, their progeny were all red-eyed, while a second generation cross produced white-eyed males—a sex-linked recessive trait, the gene for which Morgan named white. Morgan also discovered a pink-eyed mutant that showed a different pattern of inheritance. In a paper published in Science in 1911, he concluded that (1) some traits were sex-linked, (2) the trait was probably carried on one of the sex chromosomes, and (3) other genes were probably carried on specific chromosomes as well.

Morgan's illustration of crossing over, from his 1916 A Critique of the Theory of Evolution
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Morgan's illustration of crossing over, from his 1916 A Critique of the Theory of Evolution

Morgan and his students became more successful at finding mutant flies; they counted the mutant characteristics of thousands of fruit flies and studied their inheritance. As they accumulated multiple mutants, they combined them to study more complex inheritance patterns. The observation of a miniature wing mutant which was also on the sex chromosome but sometimes sorted independently to the white eye mutation, led Morgan to the idea of genetic linkage and to hypothesize the phenomenon of crossing over. Morgan proposed that the amount of crossing over between linked genes differs and that crossover frequency might indicate the distance separating genes on the chromosome; later English geneticist J. B. S. Haldane suggested that the unit of measurement for linkage be called the morgan. Morgan's student Alfred Sturtevant developed the first genetic map in 1913.

In 1915 Morgan, Sturtevant, Calvin Bridges and H. J. Muller wrote the seminal book The Mechanism of Mendelian Inheritance. Geneticist Curt Stern called the book "the fundamental textbook of the new genetics" and C. H. Waddington noted that "Morgan's theory of the chromosome represents a great leap of imagination comparable with Galileo or Newton".[citation needed] In the following years, most biologists came to accept the "Mendelian-chromosome theory" pioneered by Morgan and his students. Garland Allen characterized the post-1915 period as one of normal science, in which "The activities of 'geneticists' were aimed at further elucidation of the details and implications of the Mendelian-chromosome theory developed between 1910 and 1915." However, the details of the increasingly complex theory, as well as the very concept of the gene and its physical nature, were still controversial. Critics such as W. E. Castle pointed to contrary results in other organisms suggesting that genes interact with each other, while to Richard Goldschmidt and others, there was no compelling reason to view genes as discrete units residing on chromosomes.[10]

Because of Morgan's dramatic success with Drosophila, many other labs througout the world took up fruit fly genetics. Columbia became the center of an informal exchange network, through which promising mutant Drosophila strains were transferred from lab to lab; Drosophila became one of the first, and for some time the most widely used, model organisms.[11] Morgan's group remained highly productive, but Morgan largely withdrew from doing fly work himself and gave his lab members considerable freedom in designing and carrying out their own experiments. Instead, Morgan returned to embryology and worked to encourage the spread of genetics research to other organisms and the spread of the mechanistic experimental approach (Enwicklungsmechanik) to all biological fields.[12] After 1915, he also became a strong critic of the growing eugenics movement, which frequently co-opted the ideas of genetics in support of racism and worse.[13]

John Hopkins awarded Morgan an honorary LL.D. and the University of Kentucky awarded him an honorary Ph.D. He was elected a member of the National Academy of Sciences and made a foreign member of the Royal Society. In 1924 Morgan received the Darwin Medal. His Fly Room at Columbia became world famous and he found it easy to attract funding and visiting academics. In 1927 after 25 years at Columbia, and nearing the age of retirement he received an offer from George Ellery Hale to establish a school of biology in California.

[edit] Caltech

Morgan moved to California to head the Division of Biology at the California Institute of Technology in 1928. In establishing the biology division, Morgan wanted to distinguish his program from those offered by Johns Hopkins and Columbia, with research focused on genetics and evolution; experimental embryology; physiology; biophysics and biochemistry. He was also instrumental in the establishment of the Marine Laboratory on Corona del Mar. He wanted to attract the best people to the Division at Caltech, so he took Bridges, Sturtevant, Jack Shultz and Albert Tyler from Columbia and took on Theodosius Dobzhansky as an international research fellow. More scientists came to work in the Division including George Beadle, Boris Ephrussi, Edward L. Tatum, Linus Pauling, Frits Went, and Sidney W. Fox.

In accordance with his reputation, Morgan held numerous prestigious positions in American science organizations. From 1927 to 1931 Morgan served as the President of the National Academy of Sciences; in 1930 he was the President of the American Association for the Advancement of Science; and in 1932 he chaired the Sixth International Congress of Genetics in Ithaca, New York. In 1933 Morgan was awarded the Nobel Prize in Physiology or Medicine; he had been nominated in 1919 and 1930 for the same work. As an acknowledgement of the group nature of his discovery he gave his prize money to Bridges', Sturtevant's and his own children. Morgan declined to attend the awards ceremony in 1933, instead attending in 1934. The 1933 rediscovery of the giant polytene chromosomes in the salivary gland of Drosophila may have influenced his choice. Until that point, the lab's results had been inferred from phenotypic results, the visible polytene chromosome enabled them to confirm their results on a physical basis. Morgan's Nobel acceptance speech entitled "The Contribution of Genetics to Physiology and Medicine" downplayed the contribution genetics could make to medicine beyond genetic counselling. In 1939 he was awarded the Copley Medal by the Royal Society.

He received two extensions of his contract at Caltech, but eventually retired in 1942, becoming professor and chairman emeritus. George Beadle returned to Caltech to replace Morgan as chairman of the department in 1946. Although he had retired, Morgan kept offices across the road from the Division and continued laboratory work. In his retirement he returned to the questions of sexual differentiation, regeneration, and embryology. Morgan had throughout his life suffered with a chronic duodenal ulcer, and in 1945 he experienced a severe heart attack and died from a ruptured artery.

[edit] Legacy

Morgan left an important legacy in genetics. Some of Morgan's students from Columbia and Caltech went on to win their own Nobel Prizes, including George Wells Beadle, Edward B. Lewis and Hermann Joseph Muller. Nobel prize winner Eric Kandel has written of Morgan, "Much as Darwin's insights into the evolution of animal species first gave coherence to nineteenth-century biology as a descriptive science, Morgan's findings about genes and their location on chromosomes helped transform biology into an experimental science."[14]

The Thomas Hunt Morgan School of Biological Sciences at the University of Kentucky is named for Morgan. In Morgan's honor, the Genetics Society of America annually awards the Thomas Hunt Morgan Medal to one of its members who has made a significant contribution to the science of genetics.

Thomas Hunt Morgan's discovery was illustrated on a 1989 stamp issued in Sweden, showing the discoveries of eight Nobel Prize winning geneticists.


[edit] See also

[edit] References

  1. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 11-14, 24
  2. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 46-51
  3. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 50-53
  4. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 55-59, 72-80
  5. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 55-59, 80-82
  6. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 84-96
  7. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 68-70
  8. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 105-116
  9. ^ Kohler, Lords of the Fly, pp 37-43
  10. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 208-213, 257-278. Quotation from p 213.
  11. ^ Kohler, Lords of the Fly, chapter 5
  12. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 214-215, 285
  13. ^ Allen, Thomas Hunt Morgan: The Man and His Science, pp 227-234
  14. ^ Kandel, Eric. 1999. "Genes, Chromosomes, and the Origins of Modern Biology." Columbia Magazine
  • Allen, Garland E. 1978. Thomas Hunt Morgan: The Man and His Science. Princeton University Press ISBN 0-691-08200-6
  • Allen, G. E. 2000. Morgan, Thomas Hunt. American National Biography Online. Oxford University Press
  • Kohler, Robert E. 1994. Lords of the Fly: Drosophila Genetics and the Experimental Life. The University of Chicago Press ISBN 0-226-45063-5
  • Shine, I. and Wrobel, S. 1976. Thomas Hunt Morgan: Pioneer of Genetics. The University Press of Kentucky ISBN 0-8131-0095-X

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