Cytogenetical studies in the bridge cross Allium cepa× (A. fistulosum×A. roylei)

Abstract

Allium fistulosum harbours a number of desirable agronomical traits for the breeding of onions. However exploitation of A. fistulosum for onion breeding via direct sexual hybridization is problematic. Therefore, we examined if a bridge cross, using A. roylei as a bridging species, might provide an alternative. By means of genomic in situ hybridization (GISH) we showed that each of the three parental genomes can be distinguished from the others in interspecific hybrids, suggesting that these genomes contain sufficiently different repetitive DNA families. We succeeded in carrying out multi-colour GISH to metaphase spreads of a first-generation bridge-cross individual [A. cepa× (A. fistulosum×A. roylei], which is composed of three parental genomes. Recombination between the genomes of A. fistulosum and A. roylei took place to a large extent: 7 recombined chromosomes were observed, and it could be shown that the proximal regions of the recombined A. fistulosum/A. roylei chromosomes belonged to the former, whereas the distal parts belonged to the latter. The high percentage of bound bivalent arms in metaphase I of pollen mother cells of a fertile bridge-cross individual suggests the introgression of A. fistulosum genes, mediated by A. roylei, into the genome of A. cepa. However, the presence of univalents reflects decreased pairing and recombination between the three genomes. Pollen fertility and pollen-tube growth of the first-generation bridge-cross individual seem to be sufficient to produce a second generation bridge-cross (A. cepa×first-generation bridge cross) progeny.