An improved method for adventitious regeneration from apricot leaves is described. The use of the ethylene inhibitors silver thiosulphate (30-60 micro M) or aminoethoxyvinylglycine (0.5 micro M) increased regeneration percentages in Helena and Canino apricot cultivars and also the consistency of results from different experiments. Use of "Pure Agar" also improved regeneration from Helena leaves as compared with agargel or agarose. Regeneration rates for Canino were dependent on the medium in which the shoots were micropropagated. When different antibiotics were tested for their influence on regeneration, the combination of cefotaxime (0.13 m M) plus vancomycin (0.63 m M), which efficiently controls Agrobacterium growth, also increased regeneration percentages in Helena two-fold but did not affect regeneration in Canino. Kanamycin, an antibiotic widely used for selection of nptII transformed cells, promoted more rapid regeneration and higher regeneration rates from Helena leaves when added at low concentrations (8.6 and 17.1 micro M). With this improved procedure, regeneration from apricot leaves has been increased more than 200% as compared with rates reported previously.
In previous work the existence of proteins with RNase activity associated with S alleles in apricot was demonstrated. These proteins were inherited as described previously for the inheritance of self‐compatibility in this species. In this study, new cultivars have been genotyped for self‐compatibility using this method and it has been demonstrated that in all self‐compatible cultivars examined, the self‐compatibility allele is the same and is associated with an RNase with high activity. Homozygous self‐compatible individuals have been detected among established cultivars as well as among seedlings following breeding activity. This germplasm is of great value within the breeding programme because only self‐compatible seedlings will be produced. The number of S alleles in apricot appears to be low and only eight different alleles have been found in the large number of different cultivars screened. Furthermore, there are alleles present in the Spanish population that are also found in the genetic pool of North American cultivars. The screening of a progeny from the cross between the American cultivar ‘Goldrich’ and the Spanish cultivar ‘Pepito’ demonstrated the existence of the common allele S2 (detected previously by examining RNases), which was confirmed by the segregation of self‐compatibility in the progeny.
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