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  • 1
    ISSN: 1432-2242
    Keywords: Key words CMS Brassica juncea ; B. oleracea ; Somatic hybrids ; Mitochondrial recombination ; Chloroplast segregation
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Abstract  Most of the alloplasmic cytoplasmic male sterility (CMS) systems are known to be associated with a number of floral abnormalities that result from nuclear-cytoplasmic incompatibilities. One such system, ‘tour’, which is derived from Brassica tournefortii, induces additional floral abnormalities and causes chlorosis in Brassica spp. While the restorer for this CMS has been reported to be present in B. napus, in B. juncea, where the abnormalities are more pronounced, no restorer has yet been identified. Rectification of these floral abnormalities through mitochondrial recombinations and chloroplast replacement might result in the improvement of this CMS system. As organelle recombinations can possibly be achieved only by somatic cell hybridization, fusion experiments were carried out between hygromycin-resistant B. juncea AABB carrying ‘tour’ cytoplasm and phosphinotricin-resistant, normal B. oleracea CC to generate AABBCC hexaploid somatic hybrids. The presence of selectable marker genes facilitated the selection of hybrids in large numbers. The resulting hybrids showed wide variation in floral morphology and organelle composition. Regenerants with normal, male-sterile flowers having recombinant ‘tour’or ‘oleracea’-type mitochondria and ‘oleracea’-type chloroplasts were obtained. Hybrids with male-fertile flowers were also obtained that had recombined ‘tour’ mitochondria. The AABBCC hexaploid hybrids synthesized in the present study were successfully utilized as a bridging material for transferring variability in the organelle genome simultaneously to all the digenomic Brassica species, and all of these hybrids are now being stabilized through repeated backcrosses to the allo-polyploid crop brassicas.
    Type of Medium: Electronic Resource
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