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Droc, GaëtanLariviere, D.Guignon, V.Yahiaoui, N.This, D.Garsmeur, O.Dereeper, A.Hamelin, C.Argout, X.Dufayard, Jean-FrançoisLengelle, J.Baurens, F.C.Cenci, A.Pitollat, B.D'Hont, A.Ruiz, M.Rouard, M.Bocs, S.[The Banana Genome Hub]The Banana Genome Hub

Edible bananas result from interspecific hybridization between Musa acuminata and Musa balbisiana, as well as among subspecies in M. acuminata. Four particular M. acuminata subspecies have been proposed as the main contributors of edible bananas, all of which radiated in a short period of time in...


Rouard, M.Droc, GaëtanMartin, G.Hueber, Y.Sardos, J.Guignon, V.Cenci, A.Geigle, B.Hibbins, M.Yahiaoui, N.Baurens, F.C.Berry, V.Hahn, M.D’Hont, A.Roux, N.[Three new genome assemblies support a rapid radiation in Musa acuminata (wild banana)]Three new genome assemblies support a rapid radiation in Musa acuminata (wild banana)

Admixture and polyploidization are major recognized eukaryotic genome evolutionary processes. Their impacts on genome dynamics vary among systems and are still partially deciphered. Many banana cultivars are triploid (sometimes diploid) interspecific hybrids between Musa acuminata (A genome) and ...


Baurens, F.C.Martin, G.Hervouet, C.Salmon, F.Yohoume D.Ricci, S.Rouard, M.Habas, R.Yahiaoui, N.D’Hont, A.[Recombinations and large structural variations shape the mosaic genomes of interspecific edible bananas]Recombinations and large structural variations shape the mosaic genomes of interspecific edible bananas

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