article
An exactly solved model for mutation, recombination and selection
published
Michael
Baake
author 115942
Ellen
Baake
author 161046
201230
department
10060
department
It is well known that rather general mutation-recombination models can besolved algorithmically (though not in closed form) by means of Haldanelinearization. The price to be paid is that one has to work with a multipletensor product of the state space one started from. Here, we present a relevant subclass of such models, in continuous time, withindependent mutation events at the sites, and crossover events between them. Itadmits a closed solution of the corresponding differential equation on thebasis of the original state space, and also closed expressions for the linkagedisequilibria, derived by means of M\"obius inversion. As an extra benefit, theapproach can be extended to a model with selection of additive type acrosssites. We also derive a necessary and sufficient criterion for the mean fitnessto be a Lyapunov function and determine the asymptotic behaviour of thesolutions.
2003
eng
Canadian Journal of Mathematics
0008-414X
1496-4279
math/0210422
00018089310000110.4153/CJM-2003-001-0
5513-41
Baake M, Baake E (2003) <br /><em>Canadian Journal of Mathematics</em> 55(1): 3-41.
<div style="text-indent:-25px; padding-left:25px;padding-bottom:0px;">Baake, M. & Baake, E. (2003). An exactly solved model for mutation, recombination and selection. <em>Canadian Journal of Mathematics</em>, <em>55</em>(1), 3-41. doi:10.4153/CJM-2003-001-0.</div>
Baake, Michael, and Baake, Ellen. “An exactly solved model for mutation, recombination and selection”. <em>Canadian Journal of Mathematics</em> 55.1 (2003): 3-41.
Baake M, Baake E (2003) <br />An exactly solved model for mutation, recombination and selection.<br />Canadian Journal of Mathematics 55(1): 3-41.
<div style="text-indent:-25px; padding-left:25px;padding-bottom:0px;">Baake, M., & Baake, E. (2003). An exactly solved model for mutation, recombination and selection. <em>Canadian Journal of Mathematics</em>, <em>55</em>(1), 3-41. doi:10.4153/CJM-2003-001-0</div>
Baake M, Baake E. An exactly solved model for mutation, recombination and selection. <em>Canadian Journal of Mathematics</em>. 2003;55(1):3-41.
<div style="text-indent:-25px; padding-left:25px;padding-bottom:0px;">Baake, Michael, and Baake, Ellen. 2003. “An exactly solved model for mutation, recombination and selection”. <em>Canadian Journal of Mathematics</em> 55 (1): 3-41.</div>
M. Baake and E. Baake, “An exactly solved model for mutation, recombination and selection”, <em>Canadian Journal of Mathematics</em>, vol. 55, 2003, pp. 3-41.
Baake, M., and Baake, E. (2003). An exactly solved model for mutation, recombination and selection. <em>Canadian Journal of Mathematics</em> 55, 3-41.
Baake, M., Baake, E.: An exactly solved model for mutation, recombination and selection. Canadian Journal of Mathematics. 55, 3-41 (2003).
M. Baake, and E. Baake, “An exactly solved model for mutation, recombination and selection”, <em>Canadian Journal of Mathematics</em>, <strong>2003</strong>, <em>55</em>, 3-41.
Baake, M., & Baake, E. (2003). An exactly solved model for mutation, recombination and selection. <em>Canadian Journal of Mathematics</em>, <em>55</em>(1), 3-41. doi:10.4153/CJM-2003-001-0
M. Baake and E. Baake, An exactly solved model for mutation, recombination and selection, Canadian Journal of Mathematics <strong>55</strong>, 3 (2003).
Baake, M.; Baake, E. (2003): An exactly solved model for mutation, recombination and selection <em>Canadian Journal of Mathematics</em>,55:(1): 3-41.
Baake, M., & Baake, E., 2003. An exactly solved model for mutation, recombination and selection. <em>Canadian Journal of Mathematics</em>, 55(1), p 3-41.
19277812010-12-06T10:47:33Z2018-07-24T12:59:49Z