Abstract

Mice were derived from parental males treated with 250 mg ethylnitrosourea per kg body weight. The mice were screened simultaneously for induced dominant cataract and recessive specific-locus mutations. In the spermatogonial treatment group, 16 dominant cataract, 1 dominant corneal opacity and 60 recessive specific-locus mutations were recovered and genetically confirmed in 9352 offspring observed. This lower yield of dominant cataract mutations, when compared with the yield of recessive specific-locus mutations, is similar to results observed by Kratochvilova in a series of experiments on dominant cataract mutations induced by radiation treatment. These results taken with reported results from other dominant mutation test systems, suggest a lower per-locus mutation rate to dominant than to recessive alleles. A corollary to the hypothesis that most dominantly expressed alleles code for an alteration in the function of the normal gene product is that a limited subset of mutations could normally lead to a dominantly expressed mutation. This may explain the lower per-locus mutation rate to dominant than to recessive alleles. Genetic confirmation tests of recovered presumed dominant cataract mutations indicate that a certain category of phenotypic variants (bilateral, severe or unique lens opacity) is likely to be a true mutation but only represents 7 of the 19 mutations recovered. A second category of phenotypic variants (unilateral, neither severe nor unique lens opacity) has an extremely low probability of being a true mutation. Only 1 confirmed mutation in 181 phenotypic variants was obtained. The remaining category of phenotypic variants (either unilateral severe or unique, or bilateral neither severe nor unique lens opacity) represented the majority, 11, of the confirmed mutations obtained. However, 266 presumed mutations in this category were recovered. If a sub-class of phenotypic variants within this category could be identified that could be ignored owing to a very low probability of being a true mutation, the efficiency of recovery of confirmed dominant cataract mutations would be greatly increased with no sacrifice in the accuracy of the observed mutation rate. Finally, the 17 confirmed dominant cataract mutations obtained included a class of 7 that produced significantly fewer than the Mendelian expectation of offspring exhibiting the mutant phenotype. This class probably represents both mutations with penetrance effects and mutations with viability effects. The present experiments represent the first systematic comparison of induced genetically confirmed dominant and recessive mutations for a chemical mutagen in mice. Such results contribute to our limited understanding of the mutation process to dominant alleles.

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