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Chromosome reciprocal translocations have accompanied subspecies evolution in bananas

2020; Wiley; Volume: 104; Issue: 6 Linguagem: Inglês

10.1111/tpj.15031

1365-313X

Guillaume Martin, Franc‐Christophe Baurens, Catherine Hervouet, Frédéric Salmon, Jean-Marie Eric Delos, Karine Labadie, Aude Perdereau, Pierre Mournet, Louis Blois, Marion Dupouy, Françoise Carreel, Sébastien Ricci, Arnaud Lemainque, Nabila Yahiaoui, Angélique D’Hont,

Plant Pathogenic Bacteria Studies

Chromosome rearrangements and the way that they impact genetic differentiation and speciation have long raised questions from evolutionary biologists. They are also a major concern for breeders because of their bearing on chromosome recombination. Banana is a major crop that derives from inter(sub)specific hybridizations between various once geographically isolated Musa species and subspecies. We sequenced 155 accessions, including banana cultivars and representatives of Musa diversity, and genotyped-by-sequencing 1059 individuals from 11 progenies. We precisely characterized six large reciprocal translocations and showed that they emerged in different (sub)species of Musa acuminata, the main contributor to currently cultivated bananas. Most diploid and triploid cultivars analyzed were structurally heterozygous for 1 to 4 M. acuminata translocations, highlighting their complex origin. We showed that all translocations induced a recombination reduction of variable intensity and extent depending on the translocations, involving only the breakpoint regions, a chromosome arm, or an entire chromosome. The translocated chromosomes were found preferentially transmitted in many cases. We explore and discuss the possible mechanisms involved in this preferential transmission and its impact on translocation colonization.