The direction of genital asymmetry is expressed stochastically in internally fertilizing anablepid fishes.

The direction of genital asymmetry is expressed stochastically in internally fertilizing anablepid fishes. Proc Biol Sci. 2020 Jul 08;287(1930):20200969 Authors: Torres-Dowdall J, Rometsch SJ, Kautt AF, Aguilera G, Meyer A Abstract Animal genitalia vary considerably across taxa, with divergence in many morphological traits, including striking departures from symmetry. Different mechanisms have been proposed to explain this diversity, mostly assuming that at least some of the phenotypic variation is heritable. However, heritability of the direction of genital asymmetry has been rarely determined. Anablepidae are internally fertilizing fish where the anal fin of males has been modified into an intromittent organ that transfers sperm into the gonopore of females. Males of anablepid fishes exhibit asymmetric genitalia, and both left- and right-sided individuals are commonly found at similar proportions within populations (i.e. antisymmetry). Although this polymorphism was described over a century ago, there have been no attempts to determine if genital asymmetry has a genetic basis and whether the different morphs are accumulating genetic differences, as might be expected since in some species females have also asymmetric gonopores and thereby can only be fertilized by compatible asymmetric males. We address this issue by combining breeding experiments with genome-wide data (ddRAD markers) in representative species of the two anablepid g...
Source: Anal Sci - Category: Chemistry Authors: Tags: Proc Biol Sci Source Type: research
More News: Chemistry | Fish | Genetics