Genetic mapping of the pear scab resistance gene Vnk of Japanese pear cultivar Kinchaku.

Pear scab (caused by Venturia nashicola) is one of the most harmful diseases of pears, especially Japanese and Chinese pear species. The molecular identification and early selection of resistant plants could greatly improve pear breeding. We have identified the position of the scab resistance gene, designated Vnk in an indigenous Japanese pear cultivar Kinchaku, within the pear genome by using simple sequence repeat (SSR) markers derived from pear and apple. The position of Vnk was identified in the central region of linkage group 1 of Kinchaku. Several amplified fragment length polymorphism (AFLP) markers linked to Vnk were obtained by bulked segregant analysis. Among them, the AFLP marker closest to Vnk was converted into a sequence tagged site (STS) marker. Four random amplified polymorphic DNA (RAPD) markers previously found to be loosely associated with Vnk (Iketani et al. 2001) were successfully converted into STS markers. Six markers (one SSR Hi02c07 and five STSs converted from AFLP and RAPD) showed tight linkages to Vnk, being mapped with distances ranging from 2.4 to 12.4 cM. The SSR CH-Vf2, which was isolated from a BAC clone of the contig containing the apple scab gene Vf, was mapped at the bottom of linkage group 1 in Kinchaku, suggesting that the Vnk and Vf loci are located in different genomic regions of the same homologous linkage group.

Efficient regeneration of plants independent of exogeneous growth regulators in bell pepper (Capsicum annumm L.).

Organogenesis of shoots of bell pepper (Capsicum annuum L.) was achieved in fourteen cultivars on Murashige and Skoog's medium (MS medium) supplemented only with 0.4% (w/v) Gellan gum (pH 5.8). Mature seeds of cv. Shinsakigake-2 were sown on filter paper that had been wetted with sterilized water and precultured for zero to five days in under 16 hr of light per day at 25 °C. Explants, consisting of the proximal part of the hypocotyl and the radicle, were excised from the seeds and formed adventitious buds around the cut surfaces of elongated hypocotyls after four weeks of culture. When explants were subcultured on MS medium, 57% of the explants that had produced adventitious buds extended shoots after an additional three weeks of culture. Shoots were rooted on MS medium after two further weeks of culture. Chromosome numbers of all 30 regenerated plants that weexamined were normal (2n=24). The morphology of the mature plants was also normal and they set normally shaped fruits with mature seeds. Regenerated whole plants were also obtained in the case of 13 other cultivars by applying this simple procedure.