Multiple heterochromatin diversification events in the genome of fungus-farming ants: insights from repetitive sequences

A substantial portion of the eukaryotic genome includes repetitive DNA, which is important for its stability, regulation, and architecture. Fungus-farming ant genomes show remarkable structural rearrangement rates that were necessary for the establishment of their agriculture-based lifestyle, highlighting the relevance of this peculiar group in understanding the repetitive portion of ant genome. Chromosomal banding studies are in accordance with genomic data because they show that repetitive heterochromatic sequences of basal and derivative Attina species are GC-rich, an uncommon trait in Formicidae. To understand the evolutionary dynamics of heterochromatin in Attina, we compared GC-rich heterochromatin patterns between the Paleoattina and Neoattina clades of this subtribe. To this end, we hybridized the Mrel- C 0 t probe (highly and moderately repetitive DNA) obtained from Mycetomoellerius relictus , Neoattina with GC-rich heterochromatin, in karyotypes of Paleoattina and Neoattina species. Additionally, we mapped the repetitive sequences (GA) 15 and (TTAGG) 6 in species of the two clades to investigate their organization and evolutionary patterns in the genome of Attina. The Mrel- C 0 t probe marked the heterochromatin in M. relictus , in other Mycetomoellerius spp., and in species of Mycetarotes , Cyphomyrmex , and Sericomyrmex (Neoattina). In Mycetomoellerius urichii , only pericentromeric heterochromatin was marked with Mrel- C 0 t . No marking was observed in Paleoattina species or in Atta and Acromyrmex (Neoattina). These results indicated that different evolutionary events led to heterochromatin differentiation in Attina. The most likely hypothesis is that GC-rich heterochromatin arose in the common ancestor of the two clades and accumulated various changes throughout evolution. The sequences (GA) 15 and (TTAGG) 6 located in euchromatin and telomeres, respectively, showed more homogeneous results among the species.