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Bulletin of the American Mathematical Society

The Bulletin publishes expository articles on contemporary mathematical research, written in a way that gives insight to mathematicians who may not be experts in the particular topic. The Bulletin also publishes reviews of selected books in mathematics and short articles in the Mathematical Perspectives section, both by invitation only.

ISSN 1088-9485 (online) ISSN 0273-0979 (print)

The 2020 MCQ for Bulletin of the American Mathematical Society is 0.84.

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Evolution by mutation
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by H. J. Muller PDF
Bull. Amer. Math. Soc. 64 (1958), 137-160
References
    1. T. H. Morgan, A. H. Sturtevant, H. J. Muller and C. B. Bridges, The mechanism of Mendelian heredity, New York, Holt & Co., 1915, xiii+262 pp.; rev. ed., 1923, 357 pp. 2. H. J. Muller, (a) Variation due to change in the individual gene, American Naturalist vol. 56 (1922) pp. 32-50; 2. H. J. Muller, (b) The gene as the basis of life, Proc. Internat’l Congr. Plant Sciences vol. 1 (1929) pp. 897-921; 2. H. J. Muller, (c) The gene, Proc. Royal Soc. London vol. 134 (1947) pp. 1-37. 3. J. D. Watson and F. H. C. Crick, Molecular structure of nucleic acids, Nature vol. 171 (1953) pp. 737-738; Genetical implications of the structure of deoxyribonucleic acid, Nature vol. 177 (1953) pp. 964-967; F. H. C. Crick, The structure of the hereditary material, Sci. American vol. 191 (1954) pp. 54-61. 4. S. Benzer, Fine structure of a genetic region in bacteriophage, Proc. Nat. Acad. Sci. U.S.A. vol. 41 (1955) pp. 344-354. 5. C. Levinthal, The mechanism of DNA replication and genetic recombination in phage, Proc. Nat. Acad. Sci. U.S.A. vol. 42 (1956) pp. 394-409. 6. J. Herbert Taylor, Philip S. Woods, and Walter L. Hughes, The organization and duplication of chromosomes as revealed by autoradiographic studies using tritiumlabeled thymidine, Proc. Nat. Acad. Sci. U.S.A. vol. 43 (1957) pp. 122-128. 7. H. J. Muller, The method of evolution, Sci. Monthly vol. 29 (1929) pp. 481-505. 8. H. J. Muller, Some genetic aspects of sex, Amer. Nat. vol. 64 (1932) pp. 118-138. 9. H. J. Muller, (a) Bearings of the Drosophila work on problems of systematics, Proc. Zool. Soc., Ser. C. vol. 108 (1938) pp. 55-57. 9. H. J. Muller, (b) Reversibility in evolution considered from the standpoint of genetics, Biol. Rev. vol. 14 (1939) pp. 261-280. 9. H. J. Muller, (c) Bearings of the Drosophila work on systematics, The New Systematics (ed. J. Huxley, 1940) pp. 185-268. 9. H. J. Muller, (d) Isolating mechanisms, evolution and temperature, Biol. Sympos. vol. 6 (1942) pp. 71-125. 10. (a) E. Altenburg and H. J. Muller, The genetic basis of truncate wing, -an inconstant and modifiable character in Drosophila, Genetics vol. 5 (1920) pp. 1-59; 10. (b) H. J. Muller, Mutation, Eugenics, Genetics and the Family vol. 1 (1923) pp. 106-112. 11. E. Altenburg and H. J. Muller, (a) Genetic variability, twin hybrids and constant hybrids, in a case of balanced lethal factors, Genetics vol. 3 (1918) pp. 422-499. 12. E. Altenburg and H. J. Muller, Evidence of the precisions of genetic adaptation, The Harvey Lectures, Series XLIII, 1947-1948 (1950) pp. 165-229. 13. I. M. Lerner, Genetic homeostasis, Edinburgh, Oliver & Boyd, 1954, 134 pp. 14. I. M. Lerner, Our load of mutations, Amer. J. Human Genet, vol. 2 (1950) pp. 111-176.
Additional Information
  • Journal: Bull. Amer. Math. Soc. 64 (1958), 137-160
  • DOI: https://doi.org/10.1090/S0002-9904-1958-10191-3
  • MathSciNet review: 0095766