The Wheat 660K SNP array demonstrates great potential for marker‐assisted selection in polyploid wheat

The rapid development and application of molecular marker assays have facilitated genomic selection and genome‐wide linkage and association studies in wheat breeding. Although PCR‐based markers (e.g. simple sequence repeats and functional markers) and genotyping by sequencing have contributed greatl...

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Veröffentlicht in:	Plant biotechnology journal 2020-06, Vol.18 (6), p.1354-1360
Hauptverfasser:	Sun, Congwei, Dong, Zhongdong, Zhao, Lei, Ren, Yan, Zhang, Ning, Chen, Feng
Format:	Artikel
Sprache:	eng
Schlagworte:	Arrays Axiom® Wheat 660K SNP array Cultivars Data analysis Density Food Genes Genetic engineering Genetic improvement Genomes Genomics Genotyping Heterozygosity Illumina Wheat 90K iSelect SNP genotyping array Markers marker‐assisted breeding Nucleotides Plant breeding Polymorphism Polyploidy Review Simple sequence repeats Single-nucleotide polymorphism single‐nucleotide polymorphisms Wheat
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description	The rapid development and application of molecular marker assays have facilitated genomic selection and genome‐wide linkage and association studies in wheat breeding. Although PCR‐based markers (e.g. simple sequence repeats and functional markers) and genotyping by sequencing have contributed greatly to gene discovery and marker‐assisted selection, the release of a more accurate and complete bread wheat reference genome has resulted in the design of single‐nucleotide polymorphism (SNP) arrays based on different densities or application targets. Here, we evaluated seven types of wheat SNP arrays in terms of their SNP number, distribution, density, associated genes, heterozygosity and application. The results suggested that the Wheat 660K SNP array contained the highest percentage (99.05%) of genome‐specific SNPs with reliable physical positions. SNP density analysis indicated that the SNPs were almost evenly distributed across the whole genome. In addition, 229 266 SNPs in the Wheat 660K SNP array were located in 66 834 annotated gene or promoter intervals. The annotated genes revealed by the Wheat 660K SNP array almost covered all genes revealed by the Wheat 35K (97.44%), 55K (99.73%), 90K (86.9%) and 820K (85.3%) SNP arrays. Therefore, the Wheat 660K SNP array could act as a substitute for other 6 arrays and shows promise for a wide range of possible applications. In summary, the Wheat 660K SNP array is reliable and cost‐effective and may be the best choice for targeted genotyping and marker‐assisted selection in wheat genetic improvement.
doi_str_mv	10.1111/pbi.13361
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The annotated genes revealed by the Wheat 660K SNP array almost covered all genes revealed by the Wheat 35K (97.44%), 55K (99.73%), 90K (86.9%) and 820K (85.3%) SNP arrays. Therefore, the Wheat 660K SNP array could act as a substitute for other 6 arrays and shows promise for a wide range of possible applications. 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The annotated genes revealed by the Wheat 660K SNP array almost covered all genes revealed by the Wheat 35K (97.44%), 55K (99.73%), 90K (86.9%) and 820K (85.3%) SNP arrays. Therefore, the Wheat 660K SNP array could act as a substitute for other 6 arrays and shows promise for a wide range of possible applications. In summary, the Wheat 660K SNP array is reliable and cost‐effective and may be the best choice for targeted genotyping and marker‐assisted selection in wheat genetic improvement.</abstract><cop>England</cop><pub>John Wiley & Sons, Inc</pub><pmid>32065714</pmid><doi>10.1111/pbi.13361</doi><tpages>7</tpages><orcidid>https://orcid.org/0000-0002-7327-2969</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Arrays Axiom® Wheat 660K SNP array Cultivars Data analysis Density Food Genes Genetic engineering Genetic improvement Genomes Genomics Genotyping Heterozygosity Illumina Wheat 90K iSelect SNP genotyping array Markers marker‐assisted breeding Nucleotides Plant breeding Polymorphism Polyploidy Review Simple sequence repeats Single-nucleotide polymorphism single‐nucleotide polymorphisms Wheat
title	The Wheat 660K SNP array demonstrates great potential for marker‐assisted selection in polyploid wheat
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