SNP Discovery and Chromosome Anchoring Provide the First Physically-Anchored Hexaploid Oat Map and Reveal Synteny with Model Species

Rebekah E. Oliver; Nicholas A. Tinker; Gerard R. Lazo; Shiaoman Chao; Eric N. Jellen; Martin L. Carson; Howard W. Rines; Donald E. Obert; Joseph D. Lutz; Irene Shackelford; Abraham B. Korol; Charlene P. Wight; Kyle M. Gardner; Jiro Hattori; Aaron D. Beattie; Åsmund Bjørnstad; J. Michael Bonman; Jean Luc Jannink; Mark E. Sorrells; Gina L. Brown-Guedira; Jennifer W. Mitchell Fetch; Stephen A. Harrison; Catherine J. Howarth; Amir Ibrahim; Frederic L. Kolb; Michael S. McMullen; J. Paul Murphy; Herbert W. Ohm; Brian G. Rossnagel; Weikai Yan; Kelci J. Miclaus; Jordan Hiller; Peter J. Maughan; Rachel R. Redman Hulse; Joseph M. Anderson; Emir Islamovic; Eric W. Jackson

doi:10.1371/journal.pone.0058068

SNP Discovery and Chromosome Anchoring Provide the First Physically-Anchored Hexaploid Oat Map and Reveal Synteny with Model Species

Rebekah E. Oliver, Nicholas A. Tinker, Gerard R. Lazo, Shiaoman Chao, Eric N. Jellen, Martin L. Carson, Howard W. Rines, Donald E. Obert, Joseph D. Lutz, Irene Shackelford, Abraham B. Korol, Charlene P. Wight, Kyle M. Gardner, Jiro Hattori, Aaron D. Beattie, Åsmund Bjørnstad, J. Michael Bonman, Jean Luc Jannink, Mark E. Sorrells, Gina L. Brown-GuediraJennifer W. Mitchell Fetch, Stephen A. Harrison, Catherine J. Howarth, Amir Ibrahim, Frederic L. Kolb, Michael S. McMullen, J. Paul Murphy, Herbert W. Ohm, Brian G. Rossnagel, Weikai Yan, Kelci J. Miclaus, Jordan Hiller, Peter J. Maughan, Rachel R. Redman Hulse, Joseph M. Anderson, Emir Islamovic, Eric W. Jackson

Plant Pathology

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Abstract

A physically anchored consensus map is foundational to modern genomics research; however, construction of such a map in oat (Avena sativa L., 2n = 6x = 42) has been hindered by the size and complexity of the genome, the scarcity of robust molecular markers, and the lack of aneuploid stocks. Resources developed in this study include a modified SNP discovery method for complex genomes, a diverse set of oat SNP markers, and a novel chromosome-deficient SNP anchoring strategy. These resources were applied to build the first complete, physically-anchored consensus map of hexaploid oat. Approximately 11,000 high-confidence in silico SNPs were discovered based on nine million inter-varietal sequence reads of genomic and cDNA origin. GoldenGate genotyping of 3,072 SNP assays yielded 1,311 robust markers, of which 985 were mapped in 390 recombinant-inbred lines from six bi-parental mapping populations ranging in size from 49 to 97 progeny. The consensus map included 985 SNPs and 68 previously-published markers, resolving 21 linkage groups with a total map distance of 1,838.8 cM. Consensus linkage groups were assigned to 21 chromosomes using SNP deletion analysis of chromosome-deficient monosomic hybrid stocks. Alignments with sequenced genomes of rice and Brachypodium provide evidence for extensive conservation of genomic regions, and renewed encouragement for orthology-based genomic discovery in this important hexaploid species. These results also provide a framework for high-resolution genetic analysis in oat, and a model for marker development and map construction in other species with complex genomes and limited resources.

Original language	English (US)
Article number	e58068
Journal	PloS one
Volume	8
Issue number	3
DOIs	https://doi.org/10.1371/journal.pone.0058068
State	Published - Mar 22 2013

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Oliver, R. E., Tinker, N. A., Lazo, G. R., Chao, S., Jellen, E. N., Carson, M. L., Rines, H. W., Obert, D. E., Lutz, J. D., Shackelford, I., Korol, A. B., Wight, C. P., Gardner, K. M., Hattori, J., Beattie, A. D., Bjørnstad, Å., Bonman, J. M., Jannink, J. L., Sorrells, M. E., ... Jackson, E. W. (2013). SNP Discovery and Chromosome Anchoring Provide the First Physically-Anchored Hexaploid Oat Map and Reveal Synteny with Model Species. PloS one, 8(3), Article e58068. https://doi.org/10.1371/journal.pone.0058068

Oliver, RE, Tinker, NA, Lazo, GR, Chao, S, Jellen, EN, Carson, ML, Rines, HW, Obert, DE, Lutz, JD, Shackelford, I, Korol, AB, Wight, CP, Gardner, KM, Hattori, J, Beattie, AD, Bjørnstad, Å, Bonman, JM, Jannink, JL, Sorrells, ME, Brown-Guedira, GL, Mitchell Fetch, JW, Harrison, SA, Howarth, CJ, Ibrahim, A, Kolb, FL, McMullen, MS, Murphy, JP, Ohm, HW, Rossnagel, BG, Yan, W, Miclaus, KJ, Hiller, J, Maughan, PJ, Redman Hulse, RR, Anderson, JM, Islamovic, E & Jackson, EW 2013, 'SNP Discovery and Chromosome Anchoring Provide the First Physically-Anchored Hexaploid Oat Map and Reveal Synteny with Model Species', PloS one, vol. 8, no. 3, e58068. https://doi.org/10.1371/journal.pone.0058068

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title = "SNP Discovery and Chromosome Anchoring Provide the First Physically-Anchored Hexaploid Oat Map and Reveal Synteny with Model Species",

abstract = "A physically anchored consensus map is foundational to modern genomics research; however, construction of such a map in oat (Avena sativa L., 2n = 6x = 42) has been hindered by the size and complexity of the genome, the scarcity of robust molecular markers, and the lack of aneuploid stocks. Resources developed in this study include a modified SNP discovery method for complex genomes, a diverse set of oat SNP markers, and a novel chromosome-deficient SNP anchoring strategy. These resources were applied to build the first complete, physically-anchored consensus map of hexaploid oat. Approximately 11,000 high-confidence in silico SNPs were discovered based on nine million inter-varietal sequence reads of genomic and cDNA origin. GoldenGate genotyping of 3,072 SNP assays yielded 1,311 robust markers, of which 985 were mapped in 390 recombinant-inbred lines from six bi-parental mapping populations ranging in size from 49 to 97 progeny. The consensus map included 985 SNPs and 68 previously-published markers, resolving 21 linkage groups with a total map distance of 1,838.8 cM. Consensus linkage groups were assigned to 21 chromosomes using SNP deletion analysis of chromosome-deficient monosomic hybrid stocks. Alignments with sequenced genomes of rice and Brachypodium provide evidence for extensive conservation of genomic regions, and renewed encouragement for orthology-based genomic discovery in this important hexaploid species. These results also provide a framework for high-resolution genetic analysis in oat, and a model for marker development and map construction in other species with complex genomes and limited resources.",

author = "Oliver, {Rebekah E.} and Tinker, {Nicholas A.} and Lazo, {Gerard R.} and Shiaoman Chao and Jellen, {Eric N.} and Carson, {Martin L.} and Rines, {Howard W.} and Obert, {Donald E.} and Lutz, {Joseph D.} and Irene Shackelford and Korol, {Abraham B.} and Wight, {Charlene P.} and Gardner, {Kyle M.} and Jiro Hattori and Beattie, {Aaron D.} and {\AA}smund Bj{\o}rnstad and Bonman, {J. Michael} and Jannink, {Jean Luc} and Sorrells, {Mark E.} and Brown-Guedira, {Gina L.} and {Mitchell Fetch}, {Jennifer W.} and Harrison, {Stephen A.} and Howarth, {Catherine J.} and Amir Ibrahim and Kolb, {Frederic L.} and McMullen, {Michael S.} and Murphy, {J. Paul} and Ohm, {Herbert W.} and Rossnagel, {Brian G.} and Weikai Yan and Miclaus, {Kelci J.} and Jordan Hiller and Maughan, {Peter J.} and {Redman Hulse}, {Rachel R.} and Anderson, {Joseph M.} and Emir Islamovic and Jackson, {Eric W.}",

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AU - Oliver, Rebekah E.

AU - Tinker, Nicholas A.

AU - Lazo, Gerard R.

AU - Chao, Shiaoman

AU - Jellen, Eric N.

AU - Carson, Martin L.

AU - Rines, Howard W.

AU - Obert, Donald E.

AU - Lutz, Joseph D.

AU - Shackelford, Irene

AU - Korol, Abraham B.

AU - Wight, Charlene P.

AU - Gardner, Kyle M.

AU - Hattori, Jiro

AU - Beattie, Aaron D.

AU - Bjørnstad, Åsmund

AU - Bonman, J. Michael

AU - Jannink, Jean Luc

AU - Sorrells, Mark E.

AU - Brown-Guedira, Gina L.

AU - Mitchell Fetch, Jennifer W.

AU - Harrison, Stephen A.

AU - Howarth, Catherine J.

AU - Ibrahim, Amir

AU - Kolb, Frederic L.

AU - McMullen, Michael S.

AU - Murphy, J. Paul

AU - Ohm, Herbert W.

AU - Rossnagel, Brian G.

AU - Yan, Weikai

AU - Miclaus, Kelci J.

AU - Hiller, Jordan

AU - Maughan, Peter J.

AU - Redman Hulse, Rachel R.

AU - Anderson, Joseph M.

AU - Islamovic, Emir

AU - Jackson, Eric W.

PY - 2013/3/22

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N2 - A physically anchored consensus map is foundational to modern genomics research; however, construction of such a map in oat (Avena sativa L., 2n = 6x = 42) has been hindered by the size and complexity of the genome, the scarcity of robust molecular markers, and the lack of aneuploid stocks. Resources developed in this study include a modified SNP discovery method for complex genomes, a diverse set of oat SNP markers, and a novel chromosome-deficient SNP anchoring strategy. These resources were applied to build the first complete, physically-anchored consensus map of hexaploid oat. Approximately 11,000 high-confidence in silico SNPs were discovered based on nine million inter-varietal sequence reads of genomic and cDNA origin. GoldenGate genotyping of 3,072 SNP assays yielded 1,311 robust markers, of which 985 were mapped in 390 recombinant-inbred lines from six bi-parental mapping populations ranging in size from 49 to 97 progeny. The consensus map included 985 SNPs and 68 previously-published markers, resolving 21 linkage groups with a total map distance of 1,838.8 cM. Consensus linkage groups were assigned to 21 chromosomes using SNP deletion analysis of chromosome-deficient monosomic hybrid stocks. Alignments with sequenced genomes of rice and Brachypodium provide evidence for extensive conservation of genomic regions, and renewed encouragement for orthology-based genomic discovery in this important hexaploid species. These results also provide a framework for high-resolution genetic analysis in oat, and a model for marker development and map construction in other species with complex genomes and limited resources.

AB - A physically anchored consensus map is foundational to modern genomics research; however, construction of such a map in oat (Avena sativa L., 2n = 6x = 42) has been hindered by the size and complexity of the genome, the scarcity of robust molecular markers, and the lack of aneuploid stocks. Resources developed in this study include a modified SNP discovery method for complex genomes, a diverse set of oat SNP markers, and a novel chromosome-deficient SNP anchoring strategy. These resources were applied to build the first complete, physically-anchored consensus map of hexaploid oat. Approximately 11,000 high-confidence in silico SNPs were discovered based on nine million inter-varietal sequence reads of genomic and cDNA origin. GoldenGate genotyping of 3,072 SNP assays yielded 1,311 robust markers, of which 985 were mapped in 390 recombinant-inbred lines from six bi-parental mapping populations ranging in size from 49 to 97 progeny. The consensus map included 985 SNPs and 68 previously-published markers, resolving 21 linkage groups with a total map distance of 1,838.8 cM. Consensus linkage groups were assigned to 21 chromosomes using SNP deletion analysis of chromosome-deficient monosomic hybrid stocks. Alignments with sequenced genomes of rice and Brachypodium provide evidence for extensive conservation of genomic regions, and renewed encouragement for orthology-based genomic discovery in this important hexaploid species. These results also provide a framework for high-resolution genetic analysis in oat, and a model for marker development and map construction in other species with complex genomes and limited resources.

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SNP Discovery and Chromosome Anchoring Provide the First Physically-Anchored Hexaploid Oat Map and Reveal Synteny with Model Species

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