The Rate of Mutation and the Homozygous and Heterozygous Mutational Effects for Competitive Viability: A Long-Term Experiment With Drosophila melanogaster

The Rate of Mutation and the Homozygous and Heterozygous Mutational Effects for Competitive Viability: A Long-Term Experiment With Drosophila melanogaster

David Chavarrías^a, Carlos López-Fanjul^a, and Aurora García-Dorado^a
^a Departamento de Genética, Facultad de Ciencias Biológicas, Universidad Complutense, 28040 Madrid, Spain

Corresponding author: Aurora García-Dorado, Departamento de Genética, Facultad de Ciencias Biológicas, Universidad Complutense, 28040 Madrid, Spain., augardo{at}eucmax.sim.ucm.es (E-mail)

Communicating editor: R. G. SHAW

The effect of 250 generations of mutation accumulation (MA)on the second chromosome competitive viability of Drosophilamelanogaster was analyzed both in homozygous and heterozygousconditions. We used full-sib MA lines, where selection hampersthe accumulation of severely deleterious mutations but is ineffectiveagainst mildly deleterious ones. A large control populationwas simultaneously evaluated. Competitive viability scores,unaffected by the expression of mutations in heterozygosis,were obtained relative to a Cy/L² genotype. The rate of declinein mean ${Delta}$ M ${approx}$ 0.1% was small. However, that of increase in variance ${Delta}$ V ${approx}$ 0.08 x 10^-3 was similar to the values obtained in previousexperiments when severely deleterious mutations were excluded.The corresponding estimates of the mutation rate ${lambda}$ $>=$ 0.01 andthe average effect of mutations E(s) $<=$ 0.08 are in good agreementwith Bateman-Mukai and minimum distance estimates for noncompetitiveviability obtained from the same MA lines after 105 generations.Thus, competitive and noncompetitive viability show similarmutational properties. The regression estimate of the degreeof dominance for mild-to-moderate deleterious mutations was $~$ 0.3, suggesting that the pertinent value for new unselectedmutations should be somewhat smaller.

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