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New Zealand Journal of Botany abstracts
The evolutionary construction of molecular polymorphisms
HAMISH G. SPENCER
Department of Zoology
University of Otago
P.O. Box 56
Dunedin, New Zealand
R. WILLIAM MARKS
Department of Biology
Villanova University
Villanova, Pennsylvania 19085, U.S.A.
Abstract Simple evolutionary processes can
regularly generate events that appear highly unlikely
when compared to the universe of all possible events.
Models incorporating this evolutionary dynamic we
call "constructionist" and we contrast them with
traditional models which focus on static, equilibrium
aspects. In population genetics, constructionist
models have provided a different perspective on
several long-standing problems. We review three
examples of the results from our own work. These
results are: (1) simple evolutionary processes can
result in multiple-allele polymorphisms maintained
by selection that are highly unlikely to occur if
fitnesses are chosen simultaneously and at random;
(2) the frequency at which viabilities (e.g., hetero-
zygote advantage or recessive lethality) occur in
mutations is likely to be very different from that
observed in established polymorphisms; and (3) the
power of the Ewens-Watterson test of neutrality is
low. Several extensions of the models are discussed,
together with the sorts of questions they may answer.
We conclude that a complete understanding of the
evolutionary forces responsible for molecular
polymorphism requires consideration of its temporal
development as well as examination of its current
form.
B93016
Received 2 February 1993; accepted 9 June 1993
Keywords polymorphism; selection; heterozygote advantage; computer simulation; Ewens-Watterson test
B93016 ;
Received 2 February 1993; accepted 9 June 1993
New Zealand Journal of Botany, 1993, Vol. 31: 249-256
0028-825X/93/3103-0249 $2.50/0 © The Royal Society of New Zealand 1993
PDF file of entire paper: medium quality (646K); (scanned from paper original: notes about this process)
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