A SNP Genotyping Array for Hexaploid Oat

A SNP Genotyping Array for Hexaploid Oat

Recognizing a need in cultivated hexaploid oat ( L.) for a reliable set of reference single nucleotide polymorphisms (SNPs), we have developed a 6000 (6K) BeadChip design containing 257 Infinium I and 5486 Infinium II designs corresponding to 5743 SNPs. Of those, 4975 SNPs yielded successful assays...

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Main Authors: Nicholas A. Tinker, Shiaoman Chao, Gerard R. Lazo, Rebekah E. Oliver, Yung-Fen Huang, Jesse A. Poland, Eric N. Jellen, Peter J. Maughan, Andrzej Kilian, Eric W. Jackson
Format: Article
Language:English
Published: Wiley 2014-11-01
Series:The Plant Genome
Online Access:https://dl.sciencesocieties.org/publications/tpg/articles/7/3/plantgenome2014.03.0010
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spelling doaj-03cf4f3dcf084b2b9a941b1b7b05ac7b2020-11-25T03:10:47ZengWileyThe Plant Genome1940-33722014-11-017310.3835/plantgenome2014.03.0010plantgenome2014.03.0010A SNP Genotyping Array for Hexaploid OatNicholas A. TinkerShiaoman ChaoGerard R. LazoRebekah E. OliverYung-Fen HuangJesse A. PolandEric N. JellenPeter J. MaughanAndrzej KilianEric W. JacksonRecognizing a need in cultivated hexaploid oat ( L.) for a reliable set of reference single nucleotide polymorphisms (SNPs), we have developed a 6000 (6K) BeadChip design containing 257 Infinium I and 5486 Infinium II designs corresponding to 5743 SNPs. Of those, 4975 SNPs yielded successful assays after array manufacturing. These SNPs were discovered based on a variety of bioinformatics pipelines in complementary DNA (cDNA) and genomic DNA originating from 20 or more diverse oat cultivars. The array was validated in 1100 samples from six recombinant inbred line (RIL) mapping populations and sets of diverse oat cultivars and breeding lines, and provided approximately 3500 discernible Mendelian polymorphisms. Here, we present an annotation of these SNPs, including methods of discovery, gene identification and orthology, population-genetic characteristics, and tentative positions on an oat consensus map. We also evaluate a new cluster-based method of calling SNPs. The SNP design sequences are made publicly available, and the full SNP genotyping platform is available for commercial purchase from an independent third party.https://dl.sciencesocieties.org/publications/tpg/articles/7/3/plantgenome2014.03.0010
collection DOAJ
language English
format Article
sources DOAJ
author Nicholas A. Tinker
Shiaoman Chao
Gerard R. Lazo
Rebekah E. Oliver
Yung-Fen Huang
Jesse A. Poland
Eric N. Jellen
Peter J. Maughan
Andrzej Kilian
Eric W. Jackson
spellingShingle Nicholas A. Tinker
Shiaoman Chao
Gerard R. Lazo
Rebekah E. Oliver
Yung-Fen Huang
Jesse A. Poland
Eric N. Jellen
Peter J. Maughan
Andrzej Kilian
Eric W. Jackson
A SNP Genotyping Array for Hexaploid Oat
The Plant Genome
author_facet Nicholas A. Tinker
Shiaoman Chao
Gerard R. Lazo
Rebekah E. Oliver
Yung-Fen Huang
Jesse A. Poland
Eric N. Jellen
Peter J. Maughan
Andrzej Kilian
Eric W. Jackson
author_sort Nicholas A. Tinker
title A SNP Genotyping Array for Hexaploid Oat
title_short A SNP Genotyping Array for Hexaploid Oat
title_full A SNP Genotyping Array for Hexaploid Oat
title_fullStr A SNP Genotyping Array for Hexaploid Oat
title_full_unstemmed A SNP Genotyping Array for Hexaploid Oat
title_sort snp genotyping array for hexaploid oat
publisher Wiley
series The Plant Genome
issn 1940-3372
publishDate 2014-11-01
description Recognizing a need in cultivated hexaploid oat ( L.) for a reliable set of reference single nucleotide polymorphisms (SNPs), we have developed a 6000 (6K) BeadChip design containing 257 Infinium I and 5486 Infinium II designs corresponding to 5743 SNPs. Of those, 4975 SNPs yielded successful assays after array manufacturing. These SNPs were discovered based on a variety of bioinformatics pipelines in complementary DNA (cDNA) and genomic DNA originating from 20 or more diverse oat cultivars. The array was validated in 1100 samples from six recombinant inbred line (RIL) mapping populations and sets of diverse oat cultivars and breeding lines, and provided approximately 3500 discernible Mendelian polymorphisms. Here, we present an annotation of these SNPs, including methods of discovery, gene identification and orthology, population-genetic characteristics, and tentative positions on an oat consensus map. We also evaluate a new cluster-based method of calling SNPs. The SNP design sequences are made publicly available, and the full SNP genotyping platform is available for commercial purchase from an independent third party.
url https://dl.sciencesocieties.org/publications/tpg/articles/7/3/plantgenome2014.03.0010
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