Submitted to: HortScience
Publication Type: Abstract Only
Publication Acceptance Date: 3/14/2004
Publication Date: 7/18/2004
Citation: Lewers, K.S., Stafne, E., Clark, J.R., Weber, C.A., Graham, J. 2004. Simple sequence repeat (ssr) markers for raspberry and blackberry.. American Society for Horticultural Science. 39 (4):785. Interpretive Summary:
Technical Abstract: Simple Sequence Repeat (SSR) markers for raspberry and blackberry Some raspberry and blackberry breeders are interested in using molecular markers to assist with selection. Simple Sequence Repeat markers (SSRs) have many advantages, and SSRs developed from one species can sometimes be used with related species. Six SSRs derived from the weed R. alceifoliusR. idaeus red raspberry 'Glen Moy' were tested on R. idaeus red raspberry selection NY322 from Cornell Univ., R. occidentalis 'Jewel' black raspberry, Rubus spp. blackberry 'Arapaho', and blackberry selection APF-12 from the Univ. of Arkansas. The two raspberry genotypes are parents of an interspecific mapping population segregating for primocane fruiting and other traits. The two blackberry genotypes are parents of a population segregating for primocane fruiting and thornlessness. Of the six R. alceifolius SSRs, two amplified a product from all genotypes. Of the 74 red raspberry SSRs, 56 (74%) amplified a product from NY322, 39 (53%) amplified a product from 'Jewel', and 24 (32%) amplified a product from blackberry. Of the 56 SSRs that amplified a product from NY322, 17 failed to amplify a product from 'Jewel' and, therefore, detected polymorphisms between the parents of this mapping population. Twice as many detected polymorphisms of this type between blackberry and red raspberry, since 33 SSRs amplified a product from NY322, but neither of the blackberry genotypes. Differences in PCR product sizes from these genotypes reveal additional polymorphisms. Rubus is among the most diverse genera in the plant kingdom, so it is not surprising that only 19 of the 74 raspberry-derived SSRs amplified a product from all four of the genotypes tested. These SSRs will be useful in interspecific mapping and cultivar development.