Abstract
Background and AimsBananas (Musa spp.) are a major staple food for hundreds of millions of people in developing countries. The cultivated varieties are seedless and parthenocarpic clones of which the ancestral origin remains to be clarified. The most important cultivars are triploids with an AAA, AAB or ABB genome constitution, with A and B genomes provided by M. acuminata and M. balbisiana, respectively. Previous studies suggested that inter-genome recombinations were relatively common in banana cultivars and that triploids were more likely to have passed through an intermediate hybrid. In this study, we investigated the chromosome structure within the ABB group, composed of starchy cooking bananas that play an important role in food security.MethodsUsing SNP markers called from RADSeq data, we studied the chromosome structure of 36 ABB genotypes spanning defined taxonomic subgroups. To complement our understanding, we searched for similar events within nine AB hybrid genotypes.Key ResultsRecurrent homologous exchanges (HEs), i.e. chromatin exchanges between A and B subgenomes, were unravelled with at least nine founding events (HE patterns) at the origin of ABB bananas prior to clonal diversification. Two independent founding events were found for Pisang Awak genotypes. Two HE patterns, corresponding to genotypes Pelipita and Klue Teparod, show an over-representation of B genome contribution. Three HE patterns mainly found in Indian accessions shared some recombined regions and two additional patterns did not correspond to any known subgroups.ConclusionsThe discovery of the nine founding events allowed an investigation of the possible routes that led to the creation of the different subgroups, which resulted in new hypotheses. Based on our observations, we suggest different routes that gave rise to the current diversity in the ABB cultivars, routes involving primary AB hybrids, routes leading to shared HEs and routes leading to a B excess ratio. Genetic fluxes took place between M. acuminata and M. balbisiana, particularly in India, where these unbalanced AB hybrids and ABB allotriploids originated, and where cultivated M. balbisiana are abundant. The result of this study clarifies the classification of ABB cultivars, possibly leading to the revision of the classification of this subgroup.
Highlights
Bananas (Musa spp.) are herbaceous monocotyledons belonging to the Zingiberales
As in Baurens et al (2019), SNPs were assigned to the A and B subgenomes and used to scan chromosomes for the detection of deviating regions, i.e. portions of chromosomes where the subgenome ratios differ from the expected ratios based on the assumed genomic composition (i.e. A1:B1 and A1:B2 for AB hybrids and ABB allotriploids, respectively), referred to as homologous exchanges (HEs)
The cytotypes of ‘Safet Velchi’ and ‘Kunnan’ were previously characterized with chloroplasts and mitochondria originating from M. acuminata (Carreel et al, 2002; Boonruangrod et al, 2008)
Summary
Bananas (Musa spp.) are herbaceous monocotyledons belonging to the Zingiberales. The Musa genus originated in South-East Asia and west Oceania where it was domesticated; from there banana was spread to tropical areas of Africa and America. Edible AB hybrids do exist but are rare, and are mostly known in India Those studied so far are reported as sterile (Jenny et al, 2011). The most common banana cultivars are triploid (2n = 3x = 33), i.e. composed of three sets of 11 chromosomes, and are either autotriploid (AAA) or allotriploid (AAB and ABB). These cultivars have very low seed set due to farmers’ selection combined with triploidy, which hampers the production of balanced by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited
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