TY - JOUR T1 - Massive gene presence/absence variation in the mussel genome as an adaptive strategy: first evidence of a pan-genome in Metazoa JF - bioRxiv DO - 10.1101/781377 SP - 781377 AU - Marco Gerdol AU - Rebeca Moreira AU - Fernando Cruz AU - Jessica Gómez-Garrido AU - Anna Vlasova AU - Umberto Rosani AU - Paola Venier AU - Miguel A. Naranjo-Ortiz AU - Maria Murgarella AU - Pablo Balseiro AU - André Corvelo AU - Leonor Frias AU - Marta Gut AU - Toni Gabaldón AU - Alberto Pallavicini AU - Carlos Canchaya AU - Beatriz Novoa AU - Tyler S. Alioto AU - David Posada AU - Antonio Figueras Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/09/25/781377.abstract N2 - Mussels are ecologically and economically relevant edible marine bivalves, highly invasive and resilient to biotic and abiotic stressors causing recurrent massive mortalities in other species. Here we show that the Mediterranean mussel Mytilus galloprovincialis has a complex pan-genomic architecture, which includes a core set of 45,000 genes shared by all individuals plus a surprisingly high number of dispensable genes (∼15,000). The latter are subject to presence/absence variation (PAV), i.e., they may be entirely missing in a given individual and, when present, they are frequently found as a single copy. The enrichment of dispensable genes in survival functions suggests an adaptive value for PAV, which might be the key to explain the extraordinary capabilities of adaptation and invasiveness of this species. Our study underpins a unique metazoan pan-genome architecture only previously described in prokaryotes and in a few non-metazoan eukaryotes, but that might also characterize other marine invertebrates.Significance statement In animals, intraspecific genomic diversity is generally thought to derive from relatively small-scale variants, such as single nucleotide polymorphisms, small indels, duplications, inversions and translocations. On the other hand, large-scale structural variations which involve the loss of genomic regions encoding protein-coding genes in some individuals (i.e. presence/absence variation, PAV) have been so far only described in bacteria and, occasionally, in plants and fungi. Here we report the first evidence of a pan-genome in the animal kingdom, revealing that 25% of the genes of the Mediterranean mussel are subject to PAV. We show that this unique feature might have an adaptive value, due to the involvement of dispensable genes in functions related with defense and survival. ER -