ALBERT

Description: TheDrosophila melanogaster Ptransposable element provides one of the best cases of horizontal transfer of a mobile DNA sequence in eukaryotes. Invasion of natural populations by thePelement has led to a syndrome of phenotypes known as P-M hybrid dysgenesis that emerges when strains differing in theirPelement composition mate and produce offspring. Despite extensive research on many aspects ofPelement biology, many questions remain about the genomic basis of variation in P-M dysgenesis phenotypes across populations. Here we compare estimates of genomicPelement content with gonadal dysgenesis phenotypes for isofemale strains obtained from three worldwide populations ofD. melanogasterto illuminate the molecular basis of natural variation in cytotype status. We show thatPelement abundance estimated from genome sequences of isofemale strains is highly correlated across different bioinformatics approaches, but that abundance estimates are sensitive to method and filtering strategies as well as incomplete inbreeding of isofemale strains. We find thatPelement content varies significantly across populations, with strains from a North American population having fewerPelements but a higher proportion of full-length elements than strains from populations sampled in Europe or Africa. Despite these geographic differences inPelement abundance and structure, neither the number ofPelements nor the ratio of full-length to internally-truncated copies is strongly correlated with the degree of gonadal dysgenesis exhibited by an isofemale strain. Thus, variation inPelement abundance and structure across different populations does not necessarily lead to corresponding geographic differences in gonadal dysgenesis phenotypes. Finally, we confirm that population differences in the abundance and structure ofPelements that are observed from isofemale lines can also be observed in pool-seq samples from the same populations. Our work supports the view that genomicPelement content alone is not sufficient to explain variation in gonadal dysgenesis across strains ofD. melanogaster, and informs future efforts to decode the genomic basis of geographic and temporal differences inPelement induced phenotypes.