A new SSR fingerprinting set and its comparison to existing SSR- and SNP-based genotyping platforms to manage Pyrus germplasm resources

Ensuring the clonal identity of accessions within a germplasm repository, such as the US National Pyrus collection, is critical. Additionally, pedigree confirmation and understanding population structure is an important part of breeding and managing genetic resources. The ability to validate pedigre...

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Bibliographic Details
Published in:Tree genetics & genomes 2020-10, Vol.16 (5), Article 72
Main Authors: Zurn, Jason D., Nyberg, April, Montanari, Sara, Postman, Joseph, Neale, David, Bassil, Nahla
Format: Article
Language:English
Subjects:
Amplification
Biomedical and Life Sciences
Biotechnology
Deoxyribonucleic acid
DNA
DNA fingerprinting
Fingerprinting
Forestry
Genetic resources
Genotyping
Germplasm
Life Sciences
Markers
Morphology
Nucleotides
Original Article
Pedigree
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Plant resources
Platforms
Polymorphism
Population structure
Pyrus
Simple sequence repeats
Single-nucleotide polymorphism
Tree Biology
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Summary:Ensuring the clonal identity of accessions within a germplasm repository, such as the US National Pyrus collection, is critical. Additionally, pedigree confirmation and understanding population structure is an important part of breeding and managing genetic resources. The ability to validate pedigree and identity is challenging and inconclusive through morphology alone. DNA information can be used to confirm parentage and identity by descent. A Pyrus fingerprinting set was previously developed by the European Cooperative Program for Plant Genetic Resources (ECPGR) and consists of 12 dinucleotide-containing simple sequence repeats (SSRs) markers that are amplified in two PCR reactions. The ECPGR set is difficult to use because dinucleotide-containing SSRs often exhibit a number of amplification artifacts such as stutters, split peaks, and binning errors. High-core repeat (3–6 bp motifs) SSRs do not exhibit many of the artifacts displayed by dinucleotide-containing SSRs. Therefore, an easy-to-use 10-SSR fingerprint set containing high-core repeat SSRs that can be evaluated in a single reaction was developed. This fingerprinting set, known as the US Pyrus Genetic Resources (USPGR) set, was compared with the ECPGR set and to single nucleotide polymorphism (SNP) markers found on the new 70K pear Axiom™ array for its ability to assess diversity, population structure, pedigree, and identity. The USPGR set performed similarly to both genotyping platforms while being easier to use. Additionally, the present study demonstrates the usefulness of SSRs in the age of high-throughput genotyping and sequencing platforms.
ISSN:1614-2942
1614-2950
DOI:10.1007/s11295-020-01467-7