Abstract
Hybridogenesis in an interspecific hybrid frog is a coupling mechanism in the gametogenic cell line that eliminates the genome of one parental species with endoduplication of the remaining genome of the other parental species. It has been intensively investigated in the edible frog Pelophylax kl. esculentus (RL), a natural hybrid between the marsh frog P. ridibundus (RR) and the pool frog P. lessonae (LL). However, the genetic mechanisms involved remain unclear. Here, we investigated the water frogs in the western Russian territory. In three of the four populations, we genetically identified 16 RL frogs living sympatrically with the parental LL species, or with both parental species. In addition, two populations contained genome introgression with another species, P. bedriagae (BB) (a close relative of RR). In the gonads of 13 RL frogs, the L genome was eliminated, producing gametes of R (or R combined with the B genome). In sharp contrast, one RL male eliminated the L or R genome, producing both R and L sperm. We detected a variation in genome elimination within a population. Based on the genetic backgrounds of RL frogs, we hypothesize that the introgression of the B genome resulted in the change in choosing a genome to be eliminated.
Highlights
IntroductionHybrid sterility indicates normal development based on the body plan except the gonads; meiosis or gametogenesis does not completely proceed and fails to produce fertile gametes
To elucidate the taxonomic composition in each of the Russian populations investigated (Figure 1), we molecularly identified the three species (Pelophylax kl. esculentus, P. lessonae and P. ridibundus) based on the genotype of the Serum albumin intron 1 (SAI-1)
We investigated hybridogenesis in the edible frog Pelophylax kl. esculentus from the populations in western Russian territory, which are located near the eastern end of its geographic distribution
Summary
Hybrid sterility indicates normal development based on the body plan except the gonads; meiosis or gametogenesis does not completely proceed and fails to produce fertile gametes. Such reproductive isolating mechanisms are considered to be caused by genomic incompatibility between the two species in the somatic cells and/or germ cells. Esculentus (RL, a species genotype), engages a hybridogenetic system This species is a natural hybrid between the marsh frog P. ridibundus (RR) and the pool frog P. lessonae (LL). Esculentus lives with RR species, the R or L genome is eliminated and either or both gametes are produced from one hybrid [12,15,16,17]. Our study identified a variation in the genome elimination within one population
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