Nicolas Rashevsky

Nicolas Rashevsky
Nicolas Rashevsky
Born November 9, 1899(1899-11-09)
Chernigov, Ukraine, Russian Empire
Died January 16, 1972(1972-01-16) (aged 72)
Holland-Michigan, United States
Residence United States
Nationality Russian American
Fields Theoretical physics, Mathematical biology
Institutions University of Chicago, Ann Arbor, Michigan
Alma mater Kiev University, University of Chicago

Nicolas Rashevsky (November 9, 1899 – January 16, 1972) was a Ukrainian-American theoretical biologist who pioneered mathematical biology, and is also considered the father of mathematical biophysics and theoretical biology[1][2][3][4][5].

Contents

Academic career

He studied theoretical physics at the University of Kiev in Russia before 1917, and immigrated first to Turkey, Poland, France, and then to the US in 1924 because of the October revolution. In USA he worked at first for the Westinghouse Research Labs in Pittsburgh where he focused on the theoretical physics modeling of the cell division and the mathematics of cell fission, a subject that was anecdotally said to have attracted fission-related defense interests. He was awarded a Rockefeller Fellowship in 1934 and went to the University of Chicago to take up the appointment of assistant professor in the Department of Physiology. In 1938 he made his first major contribution by publishing the first book on Mathematical Biophysics, and then in 1939 he also founded the first mathematical biology international journal entitled The Bulletin of Mathematical Biophysics (BMB); these two essential contributions founded the field of mathematical biology, with the BMB journal serving as the focus of contributing mathematical biologists over the last 70 years.


Major scientific contributions

His later efforts focused on the topology of biological systems, the formulation of fundamental principles in biology, relational biology, set theory and propositional logic formulation of the hierarchical organization of organisms and human societies[6][7]. He also introduced the concept of "organismic sets", that was later developed by other authors[8] through applications of category theory to relational biology [9], organismic supercategories and Complex Systems Biology[10]. In 1938 he published the first book on mathematical biology and mathematical biophysics entitled: "Mathematical Biophysics: Physico-Mathematical Foundations of Biology." This fundamental book was then followed in 1940 by "Advances and applications of mathematical biology.", and in 1947 by "Mathematical theory of human relations", an approach to a mathematical model of society. In the same year he establishes the World' s first PhD program in Mathematical Biology at the University of Chicago. Only J. H. Woodger seems to have preceded in 1937 Rashevsky's efforts in mathematical biology with his genetic axiom system[11]. However, Woodger's `genetical axiom system' has had only very limited impact on the subsequent development of genetics because it is restricted to Mendelian genetics; one could similarly comment on Rosen's later papers on quantum genetics that—unlike his other work on complexity and life, categories of metabolic-replication systems, complex dynamics, etc.— did not make any apparent impact on either molecular biology or molecular genetics, DNA dynamics, DNA, and so on.

Rashevsky's most notable students

Some of Rashevsky's most outstanding PhD students who earned their doctorate under his supervision were: George Karreman, Herbert Daniel Landahl, Robert Rosen and Anatol Rapoport. In 1948, Anatol Rapoport took over Rashevsky's course in mathematical biology, so that Rashevsky could teach mathematical sociology instead.

Administrative and political obstacles

However, his more advanced ideas and abstract relational biology concepts found little support in the beginning amongst practicing experimental or molecular biologists, although current developments in complex systems biology clearly follow in his footsteps. In 1954 the budget for his Committee of Mathematical Biology was drastically cut; however, this was at least in part politically imposed, rather than scientifically, motivated. Thus, the subsequent University of Chicago administration—notably represented by the genetics Nobel laureate George Wells Beadle— who reversed in the 1960s the previous position and quadrupled the financial support for Rashevsky's Committee for Mathematical Biology research activities ("Reminiscences of Nicolas Rashevsky." by Robert Rosen, written in late 1972). There was later however a fall out between the retiring Nicolas Rashevsky and the University of Chicago president over the successor to the Chair of the Committee of Mathematical Biology; Nicolas Rashevsky strongly supported Dr. Herbert Landahl-his first PhD student to graduate in Mathematical Biophysics, whereas the president wished to appoint a certain US biostatistician. The result was Rashevsky's move to Ann Arbor, Michigan, and his taking ownership of the well-funded "Bulletin of Mathematical Biophysics".

Formation of Mathematical Biology, Inc.

He also formed in 1969 a non-profit organization , "Mathematical Biology, Incorporated", which was to be the precursor of "The Society for Mathematical Biology", with the purpose of "dissemination of information regarding Mathematical Biology". In his later years, after 1968, he became again very active in relational biology and held, as well as Chaired, in 1970 the first international "Symposium of Mathematical Biology" at Toledo, Ohio, in USA with the help of his former PhD student, Dr. Anthony Bartholomay, who has become the Chairman of the first Department of Mathematical Medicine at Ohio University. The meeting was sponsored by Mathematical Biology, Inc.

Final quest for principles of biology

Rashevsky was greatly influenced and inspired both by Herbert Spencer's book on the Principles of Biology (1898), and also by J. H. Woodger `axiomatic (Mendelian) genetics', to launch his own search and quest for biological principles, and also to formulate mathematically precise principles and axioms of biology. He then developed his own highly original approach to address the fundamental question of What is Life? that another theoretical physicist, Erwin Schrödinger, has asked before him and Robert Rosen from the narrower viewpoint of quantum theory in biology. He wished to reach this `holy grail' of (theoretical/ mathematical) biology, but his heavy work during the late 1960s— in spite of his related health problems— took its toll, and finally prevented him in 1972 to reach his ultimate goal.

Biography

In 1917, Nicolas Rashevsky joins the White Russian Navy and in 1920 he and his wife, Countess Emily had to flee for their lives to Constantinople where he taught at the American College. In 1921 they moved to Prague where he taught both special and general relativity. From Prague, he moved in the 1930s to Paris, France, and then to New York, Pittsburgh and Chicago, USA. His life has been dedicated to the science that he founded, Mathematical Biology, and his wife Emily was very supportive and appreciative of his scientific efforts, accompanying him at the scientific meetings that he either initiated or attended. He cut a tall, impressive figure with a slight Russian accent, but a clear voice and thought to the very day when in 1972 he died from a heart attack caused by coronary heart disease. His generosity was very well known and is often recognized in print by former associates or visitors. As the Chief Editor of BMB he had a declared policy of helping the authors to optimize their presentation of submitted papers, as well as proving many valuable suggestions to the submitting authors. His suggested detailed changes, additions and further developments were like a real `gold mine' for the submitting authors. He managed to stay aloof of all science `politics' most of the time, even in very adverse circumstances such as those during the MacCarthy era when completely unfounded political accusations were made about one or two members of his close research group. Not unlike another American theoretical physicist Robert Oppenheimer, he then had much to lose for his loyal support of the wrongly accused researcher in his group.

Works

  • Physico-mathematical aspects of Excitation and Conduction in Nerves., Cold Springs Harbor Symposia on Quantitative Biology.IV: Excitation Phenomena., 1936, p.90.
  • Mathematical Biophysics:Physico-Mathematical Foundations of Biology. Univ. of Chicago Press. : Chicago Press, 1938/1948 (2nd ed.).
  • Mathematical Theory of Human Relations: An Approach to Mathematical Biology of Social Phenomena. Bloomington, ID: Principia Press, 1947/1949 (2nd ed.)
  • Topology and life: In search of general mathematical principles in biology and sociology. Bulletin of Mathematical Biophysics 16 (1954): 317–348.
  • Proceedings of the International School of Physics "Enrico Fermi", Course 16, Physico-Mathematical Aspects of Biology. : Academic Press, 1964
  • Some Medical Aspects of Mathematical Biology. Springfield, IL: Charles C. Thomas, 1964
  • The Representation of Organisms in Terms of Predicates, Bulletin of Mathematical Biophysics 27 (1965): 477-491.
  • Outline of a Unified Approach to Physics, Biology and Sociology., Bulletin of Mathematical Biophysics 31 (1969): 159-198.
  • Looking at History through Mathematics, 1972
  • Organismic Sets., William Clowes & Sons., London, Beccles and Cochester, 1972.

Notes and references

This article incorporates material from Nicolas Rashevsky on PlanetMath, which is licensed under the Creative Commons Attribution/Share-Alike License. The article also incorporates additional data from planetphysics.org; furthermore, both external entries are original, contributed objects in the public domain.

  1. ^ http://74.125.95.132/search?q=cache:8xRI8AQgRAAJ:www1.appstate.edu/~marland/math_bio/Sunday_intro.ppt+image+of+George+Karreman&cd=6&hl=en&ct=clnk&gl=us A Brief History of Mathematical Biology
  2. ^ http://planetphysics.org/encyclopedia/NicolasRashevsky.html Nicolas Rashevky's Biography
  3. ^ http://www.smb.org/ The Society for Mathematical Biology
  4. ^ Robert Rosen Essays on Life (2004)
  5. ^ Evelyn Fox Keller Making Sense of Life pp. 82-89
  6. ^ http://planetphysics.org/encyclopedia/NicolasRashevsky.html Nicolas Rashevsk's biography
  7. ^ http://planetphysics.org/encyclopedia/BiographiesOnPlanetPhysicsOrg.html
  8. ^ Planet Math page
  9. ^ http://planetphysics.org/encyclopedia/AbstractRelationalBiologyARB.html Abstract Relational Biology and Category Theory Representations of Functional Organisms and Societies
  10. ^ http://planetphysics.org/encyclopedia/OrganismicSupercategoriesAndSuperComplexSystemBiodynamics.html Organismic Supercategories and Complex Systems Biology
  11. ^ J. H. Woodger. 1937. "Studies in the Foundations of genetics".-A Genetical Axiom System. In "Studies in Logic and the Foundations of Mathematics - The Axiomatic Method" by L. Brouwer.

Further reading

  • Bartholomay, A. F., G. Karreman and H. D. Landahl (1972). "Obituary of Nicolas Rashevsky.", Bull. Math. Biophys. 34.
  • Rosen, Robert. 1972. Tribute to Nicolas Rashevsky 1899-1972. Progress in Theoretical Biology 2.
  • Tara H. Abraham. 2004. Journal of the History of Biology, 37: 333-385.Nicholas Rashevsky's Mathematical Biophysics
  • Rosen Robert. 1972. "Reminiscences of Nicolas Rashevsky", unpublished paper.
  • Rosen, Robert. 1958. The representation of biological systems from the standpoint of the theory of categories. Bulletin of Mathematical Biophysics 20: 317–341.
  • Natural Transformations of Organismic Structures., Bulletin of Mathematical Biology, 42: 431-446, Baianu, I.C.: 1980.
  • Elsasser, M.W.: 1981, A Form of Logic Suited for Biology., In: Robert, Rosen, ed., Progress in Theoretical Biology, Volume 6, Academic Press, New York and London, pp 23–62.
  • Rosen, Robert. 1985. The physics of complexity. Systems Research 2: 171–175.
  • Rosen, Robert. 1985. Organisms as causal systems which are not mechanisms. In R. Rosen, Theoretical Biology and Complexity, 165–203.
  • Rosen, Robert. 1979. Biology and system theory: An overview. In Klir, Proceedings of the System Theory Conference - Applied General Systems Research,
  • Rosen, Robert. 1977. Complexity as a system property. International Journal of General Systems 3: 227–232.
  • Rosen, Robert. 1977. Complexity and system description. In Hartnett, Systems, 169–175.
  • Rosen, R. 1973. A unified approach to physics, biology, and sociology. In Rosen, Foundations of Mathematical Biology, 177–190.
  • Rosen, R. 1972.Quantum genetics. In R. Rosen, Foundations of Mathematical Biology, 215–252.
  • Rosen, R. 1972. Morphogenesis. In Rosen, Foundations of Mathematical Biology, 1–77.
  • Rosen, R. 1972. Mechanics of epigenetic control. In R. Rosen, Foundations of Mathematical Biology, 79–140.

External links

See also


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