To date, the development of microsatellite (SSR) markers in the genus Fragaria has focused on F. vesca . However, further species are thought to have contributed to the complex allooctoploid genome of the cultivated strawberry, F. × × × × ananassa . Here, we present 22 new SSR markers developed from the diploid species F. viridis . Twenty-one of the primer pairs amplified polymorphisms in six F. viridis accessions, with an average of 4.95 alleles per primer pair and an average expected heterozygosity of 0.68. Fourteen of these primer pairs, and a locus monomorphic in F. viridis , amplified polymorphic alleles in the parents of a F. vesca mapping population.
This study reports the development and characterization of 10 polymorphic microsatellite primer pairs in wild strawberry (Fragaria vesca). The primers were designed from a genomic library enriched for di‐, tri‐ and tetranucleotide repeats from F. vesca‘Reugen’. They showed single locus polymorphism in a set of nine F. vesca accessions; two to six alleles were detected per locus. The level of polymorphism in F. vesca was surprisingly low, although three pairs of primers were sufficient to distinguish between most accessions.
We have developed 21 new microsatellites in the model diploid perennial species Fragaria vesca from an enriched genomic library developed using F. vesca 'Ruegen'. The transferability of the primer pairs to other Fragaria species was high; all 31 primer pairs produced amplicons in 3 accessions of the octoploid strawberry Fragaria x ananassa, whereas 24 (77%) amplified a product in 7 other diploid Fragaria species. We analysed the allelic variation among 15 F. vesca accessions using the 21 microsatellites reported here and 10 F. vesca microsatellites described previously. The level of polymorphism detected at these microsatellite loci was high; five loci were monomorphic. Only two microsatellites were required to unambiguously discriminate among the 15 F. vesca accessions. A preliminary survey of segregation in an F2 progeny indicates that 20 of the 26 polymorphic loci (77%) could be mapped.
Hop (Humulus lupulus L.) cultivars are vegetatively propagated and it is difficult to differentiate them during the process of propagation. Fingerprinting with molecular markers based on DNA could be a useful means of identifying different cultivars. Simple sequence repeats, or microsatellite markers, are the most suitable marker for genetic fingerprinting because they are multi‐allelic and co‐dominant. For this purpose, we have developed primers for 10 new polymorphic microsatellite loci that are suitable for genetic fingerprinting in hop.
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