In certain tetraploid species resulting from interspecific hybridization, one parent's subgenome is known to selectively undergo DNA loss. The molecular mechanisms behind this remain unclear. In our study, we compared the genomes of a standard diploid species with two allotetraploid species from the Xenopus genus, both possessing L (longer) and S (shorter) homoeologous subgenomes. We observed substantial gene losses and intergenic DNA deletions in both the S and L subgenomes of the tetraploid species. Gene losses were around 1,000 to 3,000 for L and 4,000 to 6,000 for S, with especially prominent losses in the S subgenome. Many of these losses likely occurred shortly after interspecific hybridization in both L/S subgenomes. We also deduced frequent large inversions in the S subgenome. Upon reassessing transposon dynamics using updated genome databases, we reaffirmed heightened DNA transposon activity during the hybridization, as previously reported. We next investigated whether S subgenome-biased DNA loss could be correlated with the activation of DNA transposons following hybridization. Notably, distinct patterns were observed in the dynamics of DNA transposons between the L and S subgenomes. Several DNA transposon subfamilies correlated positively with DNA deletions in the S subgenome and negatively in the L subgenome. Based on these results, we propose a model that, upon and after hybridization between two related diploid Xenopus species, the mixture of their genomes resulted in the derepression of DNA transposons, especially in the S subgenome, leading to selective DNA loss in the S subgenome.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11415220PMC
http://dx.doi.org/10.1093/gbe/evae179DOI Listing

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