Abstract
RECENT advances in molecular genetics have had a great deal of influence on evolutionary theory, and in particular, the neutral mutation-random drift hypothesis of molecular evolution1,2 has stimulated much interest. The concept of neutral mutant substitution in the population by random genetic drift can be extended to include random fixation of very slightly deleterious mutations which have more chance of being selected against than of being selected for3,4. If this class of mutant substitution is important, we can predict that the evolution is rapid in small populations or at the time of speciation5. Here I shall organize the observed facts which indicate that this class is in fact important.
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References
Kimura, M., Nature, 217, 624 (1968).
King, J. L., and Jukes, T. H., Science, 164, 788 (1969).
Ohta, T., and Kimura, M., J. molec. Evol., 1, 18 (1971).
Ohta, T., J. molec. Evol., 1, 150 (1972).
Ohta, T., J. molec. Evol., 1, 305 (1972).
Fitch, W. M., and Margoliash, E., Brookhaven Symp. Biol., 21, 217 (1968).
Fitch, W. M., and Markowitz, E., Biochem. Genet., 4, 579 (1970).
Dayhoff, M. O., and McLaughlin, P. J., in Atlas of Protein Sequence and Structure 1972 (edit. by Dayhoff, M. O.), 111 (National Biomedical Research Foundation, Silver Spring, 1972).
Jukes, T. H., Biochem. biophys. Res. Commun., 24, 744 (1966).
Barnard, E. A., Cohen, M. S., Gold, M. H., and Kim, Jae-Kyoung, Nature, 240, 395 (1972).
Ewens, W. J., Theor. Pop. Biol., 3, 87 (1972).
Johnson, G. B., Nature new Biol., 237, 170 (1972).
Kimura, M., and Crow, J. F., Genetics, 49, 725 (1964).
Yamazaki, T., and Maruyama, T., Nature new Biol. (in the press).
Bulmer, M. G., Nature, 234, 410 (1971).
Maynard Smith, J., Nature new Biol., 237, 31 (1972).
Kimura, M., and Ohta, T., Genet. Suppl., 73, 19 (1973).
Ohta, T., and Kimura, M., Genetical Res. (in the press).
O'Brien, S. J., Wallace, B., and MacIntyre, R. J., Am. Nat., 106, 767 (1972).
Kimura, M., Genetics, 47, 713 (1962).
Mayr, E., Animal Species and Evolution (The Belknap Press of Harvard University Press, Cambridge, 1963)
Mukai, T., Mettler, L. E., and Chigusa, S. I., Proc. natn. Acad. Sci. U.S.A., 68, 1065 (1971).
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OHTA, T. Slightly Deleterious Mutant Substitutions in Evolution. Nature 246, 96–98 (1973). https://doi.org/10.1038/246096a0
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DOI: https://doi.org/10.1038/246096a0
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