Asymmetric somatic hybridization between tomato (Lycopersicon esculentum Mill) and gamma-irradiated potato (Solanum tuberosum L.): a quantitative analysis

Introgression of the Haynaldia villosa genome into gamma-ray-induced asymmetric somatic hybrids of wheat

To study the effect of gamma-ray treatment on donor and derived somatic hybrids, we carried out gamma-ray donor treatment experiments with a wide range of gamma-ray dosages and asymmetric somatic hybridization between protoplasts of wheat (Triticum aestivum L. Jinan 177) and protoplasts of Haynaldia villosa Schur. treated with different dosages of gamma-rays (40, 60 and 80 Gy, respectively). We first screened the putative hybrids by isozyme analysis, followed by characterization of nuclear and organellar genome composition of the hybrids. Genomic in situ hybridization on mitotic metaphases demonstrated that the donor chromosome elimination in the hybrids increased with increased gamma-ray dosage. Intergenomic chromosome recombination/translocations were observed in the hybrids from different dosages of gamma-rays. PCR amplification of 5S rDNA spacer sequences showed that only some of the regenerated hybrid clones inherited donor 5S rDNA sequences, suggesting that the donor DNA was also eliminated randomly. Restriction fragment length polymorphism analysis using mitochondrion (mt) and chloroplast (cp) gene-specific probes showed that the hybrid calli contained mt genomes of both parents and the cp genome of only one of the parents. Recombinations between parental mt as well as cp genes were found in the hybrid clones. Furthermore, development of the hybrid clones was dependent on the gamma-ray dosage used for the donor treatment. Regenerated plants were only obtained from fusion combinations of low (40 Gy) and intermediate (60 Gy) dose irradiation. The possible role and significance of gamma-rays on the introgression of small segments of donor chromosomes to the receptor is discussed.

Plant regeneration from protoplast fusion inPassiflora spp

Protoplasts were isolated from leaf explants ofPassiflora edulis var.flavicarpa (the yellow passion fruit) and from cell suspensions of fivePassiflora species. Chemical fusion was performed using polyethylene glycol and the microcolonies obtained were transferred to growth medium to produce calli. Electrophoresis of soluble proteins and analysis of isoenzymes from calli produced from the fusion experiments were performed to select somatic hybrids. Specific polypeptide bands allowed the identification of somatic hybrids betweenP. edulis var.flavicarpa (+)P. alata, P. edulis var.flavicarpa (+)P. amethystina, P. edulis var.flavicarpa (+)P. cincinnata, P. edulis var.flavicarpa (+)P. giberti andP. edulis var.flavicarpa (+)P. coccinea. An average of 3 to 5% hybrid calli were obtained. With the exception of theP. edulis var.flavicarpa (+)P. coccinea, whole plants were recovered from all hybrids. These somatic hybrids showed 4n=36 chromosomes, which represents a further evidence of their hybridity.