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RP2E INRA Université de Lorraine

Multi-genome comparisons reveal gain-and-loss evolution of anti-Mullerian hormone receptor type 2 as a candidate master sex-determining gene in Percidae

BMC Biology, 22 (article), 141, pp. 1-17

Kuhl, H., Euclide, P.T., Klopp, C., Cabau, C., Zahm, M., Lopez-roques, C., Iampietro, C., Kuchly, C., Donnadieu, C., Feron, R., Parrinello, H., Poncet, C., Jaffrelo, L., Confolent, C., Wen, M., Herpin, A., Jouanno, E., Bestin, A., Haffray, P., Morvezen, R., Rocha De Almeida, T., Lecocq, T., Schaerlinger, B., Chardard, D., ?arski, D., Larson, W.A., Postlethwait, J.H., Timirkhanov, S., Kloas, W., Wuertz, S., Stöck, M., Guiguen, Y.

2024

Background The Percidae family comprises many fish species of major importance for aquaculture and fisheries. Based on three new chromosome-scale assemblies in Perca fluviatilis, Perca schrenkii, and Sander vitreus along with additional percid fish reference genomes, we provide an evolutionary and comparative genomic analysis of their sex-determination systems. Results We explored the fate of a duplicated anti-Mullerian hormone receptor type-2 gene (amhr2bY), previously suggested to be the master sex-determining (MSD) gene in P. flavescens. Phylogenetically related and structurally similar amhr2 duplicates (amhr2b) were found in P. schrenkii and Sander lucioperca, potentially dating this duplication event to their last common ancestor around 19–27 Mya. In P. fluviatilis and S. vitreus, this amhr2b duplicate has been likely lost while it was subject to amplification in S. lucioperca. Analyses of the amhr2b locus in P. schrenkii suggest that this duplication could be also male-specific as it is in P. flavescens. In P. fluviatilis, a relatively small (100 kb) non-recombinant sex-determining region (SDR) was characterized on chromosome 18 using population-genomics approaches. This SDR is characterized by many male-specific single-nucleotide variations (SNVs) and no large duplication/insertion event, suggesting that P. fluviatilis has a male heterogametic sex-determination system (XX/XY), generated by allelic diversification. This SDR contains six annotated genes, including three (c18h1orf198, hsdl1, tbc1d32) with higher expression in the testis than in the ovary. Conclusions Together, our results provide a new example of the highly dynamic sex chromosome turnover in teleosts and provide new genomic resources for Percidae, including sex-genotyping tools for all three known Perca species.

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