Maternal Inheritance of Racemism in the Terrestrial Snail Bradybaena similaris

In metazoan animals, almost every known mutation of visceral asymmetry, which presents the polarity of primary asymmetry established in early development, reverses development in only about half or fewer of homozygotes. However, in pulmonate snails, the dextral and sinistral alleles are traditionally known to determine the polarity of offspring with complete dominance, and thus, each parent should produce either dextral or sinistral progeny. Contrary to this expectation, we found a mutant that produces both chiral morphs (enantiomorphs) within the same clutches in Bradybaena similaris. This study demonstrates that the consistent production of both enantiomorphs is determined by a maternal effect of a recessive allele, which probably randomizes the polarity. In snails that copulate simultaneously and reciprocally, a left-right reversed strain cannot usually be established or rescued from inbreeding depression by ad hoc outbreeding because a rarely found single mutant cannot reproduce due to great difficulties of mating with the wild type and selfing. Moreover, the rare recessive homozygote cannot easily be detected because it often exhibits the wild-type phenotype in maternal inheritance and breeding difficulty hampers genotyping it by phenotyping its progeny. The present strain established by virtue of rare advantages will, therefore, provide unique opportunities to investigate whole-body enantiomorphs.