Deleterious mutations and the genetic variance of male fitness components in Mimulus guttatus.

Deleterious mutations and the genetic variance of male fitness components in Mimulus guttatus.
Authors: 
Kelly JK
Summary
Publication Date
2003 Jul
Abstract

Deleterious mutations are relevant to a broad range of questions in genetics and evolutionary biology. I present an application of the "biometric method" for estimating mutational parameters for male fitness characters of the yellow monkeyflower, Mimulus guttatus. The biometric method rests on two critical assumptions. The first is that experimental inbreeding changes genotype frequencies without changing allele frequencies; i.e., there is no genetic purging during the experiment. I satisfy this condition by employing a breeding design in which the parents are randomly extracted, fully homozygous inbred lines. The second is that all genetic variation is attributable to deleterious mutations maintained in mutation-selection balance. I explicitly test this hypothesis using likelihood ratios. Of the three deleterious mutation models tested, the first two are rejected for all characters. The failure of these models is due to an excess of additive genetic variation relative to the expectation under mutation-selection balance. The third model is not rejected for either of two log-transformed male fitness traits. However, this model imposes only "weak conditions" and is not sufficiently detailed to provide estimates for mutational parameters. The implication is that, if biometric methods are going to yield useful parameter estimates, they will need to consider mutational models more complicated than those typically employed in experimental studies.

Publication Type
Comparative Study
Citation
Kelly JK. Deleterious mutations and the genetic variance of male fitness components in Mimulus guttatus.. Genetics. 2003 Jul; 164(3):1071-85.
Series Name: 
Genetics
Page Numbers: 
1071-85
Publisher: