BACKGROUND AND AIMS: Most cooking banana and several desert bananas are interspecific triploid hybrids between Musa acuminata (A genome) and Musa balbisiana (B genome). In addition, M. balbisiana has agronomical characteristics such as resistance to biotic and abiotic stresses that could be useful to improve monospecific acuminata cultivars. To develop efficient breeding strategies for improving Musa cultivars, it is therefore important to understand the possibility of chromosome exchange between these two species. METHODS: A protocol was developed to prepare chromosome at meiosis metaphase I suitable for genomic in situ hybridization. A series of technical challenges were encountered, the main ones being the hardness of the cell wall and the density of the microsporocyte's cytoplasm, which hampers accessibility of the probes to the chromosomes. Key parameters in solving these problems were addition of macerozyme in the enzyme mix, the duration of digestion and temperature during the spreading phase. RESULTS AND CONCLUSIONS: This method was applied to analyse chromosome pairing in metaphase from triploid interspecific cultivars, and it was clearly demonstrated that interspecific recombinations between M. acuminata and M. balbisiana chromosomes do occur and may be frequent in triploid hybrids. These results provide new insight into Musa cultivar evolution and have important implications for breeding.
BACKGROUND AND AIMS: Most cooking banana and several desert bananas are interspecific triploid hybrids between Musa acuminata (A genome) and Musa balbisiana (B genome). In addition, M. balbisiana has agronomical characteristics such as resistance to biotic and abiotic stresses that could be useful to improve monospecific acuminata cultivars. To develop efficient breeding strategies for improving Musa cultivars, it is therefore important to understand the possibility of chromosome exchange between these two species. METHODS: A protocol was developed to prepare chromosome at meiosis metaphase I suitable for genomic in situ hybridization. A series of technical challenges were encountered, the main ones being the hardness of the cell wall and the density of the microsporocyte's cytoplasm, which hampers accessibility of the probes to the chromosomes. Key parameters in solving these problems were addition of macerozyme in the enzyme mix, the duration of digestion and temperature during the spreading phase. RESULTS AND CONCLUSIONS: This method was applied to analyse chromosome pairing in metaphase from triploid interspecific cultivars, and it was clearly demonstrated that interspecific recombinations between M. acuminata and M. balbisiana chromosomes do occur and may be frequent in triploid hybrids. These results provide new insight into Musa cultivar evolution and have important implications for breeding.
Authors: Nina Reis Soares; Caio Túlio Rodrigues Correa; Jhonata Costa da Silva; Jacson Rondinelli da Silva Negreiros; Vânia Helena Techio; Giovana Augusta Torres Journal: Protoplasma Date: 2021-11-11 Impact factor: 3.356
Authors: Margit Drapal; Elisabete Barros de Carvalho; Mathieu Rouard; Delphine Amah; Julie Sardos; Ines Van den Houwe; Allan Brown; Nicolas Roux; Rony Swennen; Paul D Fraser Journal: Sci Rep Date: 2019-03-15 Impact factor: 4.379
Authors: Mark W Davey; Ranganath Gudimella; Jennifer Ann Harikrishna; Lee Wan Sin; Norzulaani Khalid; Johan Keulemans Journal: BMC Genomics Date: 2013-10-05 Impact factor: 3.969