A novel approach for chromosome doubling that consists of treating embryos instead of parts of micropropagated plants was investigated. Following 2year trials, amiprofos-methyl (APM) was found to be superior to oryzalin on the basis of a lower toxicity, and we were able to narrow the range of concentrations of APM. The addition of 2% dimethyl sulphoxide (DMSO) and 1% Triton X-100 to 25 mM APM had no effect in all treatments. A final experiment with 6,658 embryos demonstrated that a 2-day treatment in liquid media supplemented with 50 mM APM was the most successful with respect to chromosome doubling-36.7% of the plants were diploid-but the survival rate was reduced to 52.5% of that of the non-treated control. A 2-day treatment in liquid medium supplemented with 25 mM APM or a 2-day treatment on solid medium with 50 mM APM resulted in the production of diploids at a frequency of 28.9% and 21.3%, respectively. These may represent alternative methods for chromosome doubling since compared to the untreated control these two treatments reduced the survival rate by only about 24%. Final ploidy and fertility of the large proportion of induced mixoploid plants (up to 30.3%) need to be evaluated in further studies.
Two separate experiments were performed to analyze the effects of different media on gynogenic regeneration in four onion cultivars. In a two step flower/ovary culture procedure, 2,4-dichlorophenoxyacetic acid added to the induction medium was superior to phenylacetic acid in the highly regenerating cultivar, while the effect of thidiazuron in the regeneration medium was generally optimal in higher (2 mg/l) rather than in lower (0.2 mg/l) concentrations. Gellan-gum was compared to agar solidified media. A higher number of regenerants was achieved on the former, but an undesirable hyperhydricity of regenerants formed on gellan-gum solidified media greatly reduced the final survival of formed embryos. Analysis of the time interval needed for regeneration showed high variability (from 46 to 152 days after inoculation), which was particularly pronounced in genotypes with lower regeneration capacity. Simpler isozyme patterns of regenerants showed that all analysed regenerants of the cultivar with a high regeneration capacity were homozygous, while in the other three cultivars, a considerable percentage (11.1 to 36.4%) of heterozygous regenerants were also detected. Ploidy analysis of the regenerants with simpler isozyme patterns revealed that the majority of lines remain haploid. Identification of 2 homozygous triploid regenerants demonstrated that as in androgenesis, nuclear fusions can occur during gynogenic haploid regeneration.
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