Development and implementation of nested single‐nucleotide polymorphism (SNP) assays for breeding and genetic research applications

Song, Qijian; Quigley, Charles; He, Ruifeng; Wang, Dechun; Nguyen, Henry; Miranda, Carrie; Li, Zenglu

doi:10.1002/tpg2.20491

The Plant Genome

2024

DOI: 10.1002/tpg2.20491

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Development and implementation of nested single‐nucleotide polymorphism (SNP) assays for breeding and genetic research applications

Qijian Song,

Charles Quigley,

Ruifeng He

et al.

Abstract: SoySNP50K and SoySNP6K are commonly used for soybean (Glycine max) genotyping. The SoySNP50K assay has been used to genetically analyze the entire USDA Soybean Germplasm Collection, while the SoySNP6K assay, containing a subset of 6000 single‐nucleotide polymorphisms (SNPs) from SoySNP50K, has been used for quantitative trait loci mapping of different traits. To meet the needs for genomic selection, selection of parents for crosses, and characterization of breeding populations, especially early selection of id… Show more

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Soybean genomics research community strategic plan: A vision for 2024–2028

Stupar,

Locke,

Allen

et al. 2024

The Plant Genome

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This strategic plan summarizes the major accomplishments achieved in the last quinquennial by the soybean [Glycine max (L.) Merr.] genetics and genomics research community and outlines key priorities for the next 5 years (2024–2028). This work is the result of deliberations among over 50 soybean researchers during a 2‐day workshop in St Louis, MO, USA, at the end of 2022. The plan is divided into seven traditional areas/disciplines: Breeding, Biotic Interactions, Physiology and Abiotic Stress, Functional Genomics, Biotechnology, Genomic Resources and Datasets, and Computational Resources. One additional section was added, Training the Next Generation of Soybean Researchers, when it was identified as a pressing issue during the workshop. This installment of the soybean genomics strategic plan provides a snapshot of recent progress while looking at future goals that will improve resources and enable innovation among the community of basic and applied soybean researchers. We hope that this work will inform our community and increase support for soybean research.

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Soybean genomics research community strategic plan: A vision for 2024–2028

Stupar,

Locke,

Allen

et al. 2024

The Plant Genome

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Development of a robust SNP marker set for genotyping diverse gene bank collections of polyploid roses

Patzer,

Thomsen,

Wamhoff

et al. 2024

BMC Plant Biol

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Background Due to genetic depletion in nature, gene banks play a critical role in the long-term conservation of plant genetic resources and the provision of a wide range of plant genetic diversity for research and breeding programs. Genetic information on accessions facilitates gene bank management and can help to conserve limited resources and to identify taxonomic misclassifications or mislabelling. Here, we developed SNP markers for genotyping 4,187 mostly polyploid rose accessions from large rose collections, including the German Genebank for Roses. Results We filtered SNP marker information from the RhWag68k Axiom SNP array using call rates, uniformity of the four allelic dosage groups and chromosomal position to improve genotyping efficiency. After conversion to individual PACE® markers and further filtering, we selected markers with high discriminatory power. These markers were used to analyse 4,187 accessions with a mean call rate of 91.4%. By combining two evaluation methods, the mean call rate was increased to 95.2%. Additionally, the robustness against the genotypic groups used for calling was evaluated, resulting in a final set of 18 markers. Analyses of 94 pairs of assumed duplicate accessions included as controls revealed unexpected differences for eight pairs, which were confirmed using SSR markers. After removing the duplicates and filtering for accessions that were robustly called with all 18 markers, 141 out of the 1,957 accessions showed unexpected identical marker profiles with at least one other accession in our PACE® and SSR analysis. Given the attractiveness of NGS technologies, 13 SNPs from the marker set were also analysed using amplicon sequencing, with 76% agreement observed between PACE® and amplicon markers. Conclusions Although sampling error cannot be completely excluded, this is an indication that mislabelling occurs in rose collections and that molecular markers may be able to detect these cases. In future applications, our marker set could be used to develop a core reference set of representative accessions, and thus optimise the selection of gene bank accessions.

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Development and implementation of nested single‐nucleotide polymorphism (SNP) assays for breeding and genetic research applications

Cited by 2 publications

References 46 publications

Soybean genomics research community strategic plan: A vision for 2024–2028

Soybean genomics research community strategic plan: A vision for 2024–2028

Development of a robust SNP marker set for genotyping diverse gene bank collections of polyploid roses

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