Title of article
The action of evolutionary forces on metric traits
Author/Authors
Lopez Fanjul، c نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
6
From page
532
To page
537
Abstract
Fisher’s theorem of natural selection implies that the population genetic variance of quasi-neutral traits should be mostly additive.
In the case of fitness component traits, however, that variance would be characterised by a substantial contribution from
non-additive loci. In parallel, Robertson’s theorem states that selection will change the population mean of a trait proportionally
to the magnitude of the genetic correlation between that trait and fitness, which should be weak for quasi-neutral traits or strong
for the mean fitness components. Drosophila data from inbreeding and artificial selection experiments are discussed within that
theoretical framework. In addition, the process of regeneration by mutation of the genetic variance of a quasi-neutral trait
(abdominal bristle number) in a Drosophila population initially homozygous at all loci has been analysed. After 485 generations
of mutation accumulation, the levels of additive variance found in this population closely approached those commonly observed in
laboratory populations. Furthermore, these values, together with previously reported estimates for natural populations, could be
jointly explained by a model assuming weak causal stabilising selection
Keywords
regeneration of genetic variance by mutation , genetic architecture , genetic correlation
Journal title
Advances in Animal Biosciences
Serial Year
2010
Journal title
Advances in Animal Biosciences
Record number
650261
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