Simple Sequence Repeat and S-Locus Genotyping to Assist the Genetic Characterization and Breeding of Polyploid Prunus Species, P. spinosa and P. domestica subsp. insititia

Polyploid Prunus spinosa (2 n  = 4 ×) and P. domestica subsp. insititia (2 n  = 6 ×) represent enormous genetic potential in Central Europe, which can be exploited in breeding programs. In Hungary, 16 cultivar candidates and a recognized cultivar ‘Zempléni’ were selected from wild-growing population...

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Bibliographic Details
Published in:Biochemical genetics 2021-08, Vol.59 (4), p.1065-1087
Main Authors: Halász, Júlia, Makovics-Zsohár, Noémi, Szőke, Ferenc, Ercisli, Sezai, Hegedűs, Attila
Format: Article
Language:English
Subjects:
Alleles
Biochemistry
Biomedical and Life Sciences
Biomedicine
Breeding
Cultivars
Deoxyribonucleic acid
DNA
Genes, Plant
Genetic analysis
Genetic diversity
Genetic variability
Genotypes
Genotyping
Human Genetics
Hybrids
Loci
Medical Microbiology
Microsatellite Repeats
Nucleotide sequence
Original
Original Article
Phylogenetics
Phylogeny
Plant Breeding
Polymorphism, Genetic
Polyploidy
Prunus
Prunus - genetics
Zoology
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Summary:Polyploid Prunus spinosa (2 n  = 4 ×) and P. domestica subsp. insititia (2 n  = 6 ×) represent enormous genetic potential in Central Europe, which can be exploited in breeding programs. In Hungary, 16 cultivar candidates and a recognized cultivar ‘Zempléni’ were selected from wild-growing populations including ten P. spinosa , four P. domestica subsp. insititia and three P. spinosa  ×  P. domestica hybrids (2 n  = 5 ×) were also created. Genotyping in eleven simple sequence repeat (SSR) loci and the multiallelic S -locus was used to characterize genetic variability and achieve a reliable identification of tested accessions. Nine SSR loci proved to be polymorphic and eight of those were highly informative (PIC values ˃ 0.7). A total of 129 SSR alleles were identified, which means 14.3 average allele number per locus and all accessions but two clones could be discriminated based on unique SSR fingerprints. A total of 23 S-RNase alleles were identified and the complete and partial S -genotype was determined for 10 and 7 accessions, respectively. The DNA sequence was determined for a total of 17 fragments representing 11 S-RNase alleles. ‘Zempléni’ was confirmed to be self-compatible carrying at least one non-functional S-RNase allele ( S J ). Our results indicate that the S -allele pools of wild-growing P. spinosa and P. domestica subsp. insititia are overlapping in Hungary. Phylogenetic and principal component analyses confirmed the high level of diversity and genetic differentiation present within the analysed accessions and indicated putative ancestor–descendant relationships. Our data confirm that S -locus genotyping is suitable for diversity studies in polyploid Prunus species but non-related accessions sharing common S -alleles may distort phylogenetic inferences.
ISSN:0006-2928
1573-4927
DOI:10.1007/s10528-021-10090-7