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The algebraic approach to Bernstein's problem on Mendelian models of inheritance

Published online by Cambridge University Press:  01 July 2016

R. W. K. Odoni
R. W. K. Odoni*
Affiliation:
University of Exeter
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Extract

Consider a single gene locus for which the associated character is not sex-linked, and suppose that the character is exhibited as one of alleles. Under the Mendelian model of inheritance, if genotype frequencies are constant, the distribution of zygotes is stable from the second generation on, regardless of the value of n. (This is the celebrated Hardy–Weinberg law—see Hardy (1908).) In 1924 Bernstein raised the question of whether the Mendelian model is, in fact, a necessary consequence of the assumption that the zygote distribution is stable from the second generation on; when n = 2 or 3 Bernstein gave an affirmative solution, using elementary but tedious manipulation of probabilities. Lyubich (1971) used methods of convex analysis to obtain a partial solution of Bernstein's problem for general n. Holgate (1975) introduced algebraic methods in order to present a clearer picture of the underlying structures, and to relate Bernstein's problem to the algebras studied by Etherington (1939), Schafer (1949) and others. The purpose of this paper is to expound recent work of the author and others, building on Holgate's and Lyubich's ideas. The subject-matter of the paper is contained in a forthcoming joint paper by the author and A. E. Stratton.

Type
Symposium on Mathematical Genetics, London, 26–27 March 1979
Information
Advances in Applied Probability , Volume 12 , Issue 1 , March 1980 , pp. 9
Copyright
Copyright © Applied Probability Trust 1980 

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References

Bernstein, S. N. (1924) Solution of a mathematical problem connected with the theory of heredity (in Russian). Ann. Sci. Ukraine 1, 83114. (English translation: Ann. Math. Statist. 13 (1942), 53–61.) Google Scholar
Etherington, I. M. (1939) Genetic algebras. Proc. R. Soc. Edinburgh 59, 242258.CrossRefGoogle Scholar
Hardy, G. H. (1908) Mendelian proportions in a mixed population. Letter to the Editor, Science, 10 July 1908.Google Scholar
Holgate, P. (1975) Genetic algebras satisfying Bernstein's stationarity principle. J. London Math. Soc. (2) 9, 613623.CrossRefGoogle Scholar
Lyubich, Ya. I. (1971) Basic concepts and theorems of the evolutionary genetics of free populations (in Russian). Uspehi Mat. Nauk 26, 51116. (English translation: Russian Math. Surveys 26 (1971), 51–123.) Google Scholar
Schafer, R. D. (1949) Structure of genetic algebras. Amer. J. Math. 171, 121135.CrossRefGoogle Scholar