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The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics

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Bibliographische Detailangaben
Zeitschriftentitel: Plant Physiology
Personen und Körperschaften: Pfeifer, Matthias, Martis, Mihaela, Asp, Torben, Mayer, Klaus F.X., Lübberstedt, Thomas, Byrne, Stephen, Frei, Ursula, Studer, Bruno
In: Plant Physiology, 161, 2013, 2, S. 571-582
Format: E-Article
Sprache: Englisch
veröffentlicht:
Oxford University Press (OUP)
Schlagwörter:
Plant Science
Genetics
Physiology
author_facet Pfeifer, Matthias
Martis, Mihaela
Asp, Torben
Mayer, Klaus F.X.
Lübberstedt, Thomas
Byrne, Stephen
Frei, Ursula
Studer, Bruno
Pfeifer, Matthias
Martis, Mihaela
Asp, Torben
Mayer, Klaus F.X.
Lübberstedt, Thomas
Byrne, Stephen
Frei, Ursula
Studer, Bruno
author Pfeifer, Matthias
Martis, Mihaela
Asp, Torben
Mayer, Klaus F.X.
Lübberstedt, Thomas
Byrne, Stephen
Frei, Ursula
Studer, Bruno
spellingShingle Pfeifer, Matthias
Martis, Mihaela
Asp, Torben
Mayer, Klaus F.X.
Lübberstedt, Thomas
Byrne, Stephen
Frei, Ursula
Studer, Bruno
Plant Physiology
The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
Plant Science
Genetics
Physiology
author_sort pfeifer, matthias
spelling Pfeifer, Matthias Martis, Mihaela Asp, Torben Mayer, Klaus F.X. Lübberstedt, Thomas Byrne, Stephen Frei, Ursula Studer, Bruno 1532-2548 Oxford University Press (OUP) Plant Science Genetics Physiology http://dx.doi.org/10.1104/pp.112.207282 <jats:title>Abstract</jats:title><jats:p>Whole-genome sequences established for model and major crop species constitute a key resource for advanced genomic research. For outbreeding forage and turf grass species like ryegrasses (Lolium spp.), such resources have yet to be developed. Here, we present a model of the perennial ryegrass (Lolium perenne) genome on the basis of conserved synteny to barley (Hordeum vulgare) and the model grass genome Brachypodium (Brachypodium distachyon) as well as rice (Oryza sativa) and sorghum (Sorghum bicolor). A transcriptome-based genetic linkage map of perennial ryegrass served as a scaffold to establish the chromosomal arrangement of syntenic genes from model grass species. This scaffold revealed a high degree of synteny and macrocollinearity and was then utilized to anchor a collection of perennial ryegrass genes in silico to their predicted genome positions. This resulted in the unambiguous assignment of 3,315 out of 8,876 previously unmapped genes to the respective chromosomes. In total, the GenomeZipper incorporates 4,035 conserved grass gene loci, which were used for the first genome-wide sequence divergence analysis between perennial ryegrass, barley, Brachypodium, rice, and sorghum. The perennial ryegrass GenomeZipper is an ordered, information-rich genome scaffold, facilitating map-based cloning and genome assembly in perennial ryegrass and closely related Poaceae species. It also represents a milestone in describing synteny between perennial ryegrass and fully sequenced model grass genomes, thereby increasing our understanding of genome organization and evolution in the most important temperate forage and turf grass species.</jats:p> The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics Plant Physiology
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title The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_unstemmed The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_full The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_fullStr The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_full_unstemmed The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_short The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_sort the perennial ryegrass genomezipper: targeted use of genome resources for comparative grass genomics
topic Plant Science
Genetics
Physiology
url http://dx.doi.org/10.1104/pp.112.207282
publishDate 2013
physical 571-582
description <jats:title>Abstract</jats:title><jats:p>Whole-genome sequences established for model and major crop species constitute a key resource for advanced genomic research. For outbreeding forage and turf grass species like ryegrasses (Lolium spp.), such resources have yet to be developed. Here, we present a model of the perennial ryegrass (Lolium perenne) genome on the basis of conserved synteny to barley (Hordeum vulgare) and the model grass genome Brachypodium (Brachypodium distachyon) as well as rice (Oryza sativa) and sorghum (Sorghum bicolor). A transcriptome-based genetic linkage map of perennial ryegrass served as a scaffold to establish the chromosomal arrangement of syntenic genes from model grass species. This scaffold revealed a high degree of synteny and macrocollinearity and was then utilized to anchor a collection of perennial ryegrass genes in silico to their predicted genome positions. This resulted in the unambiguous assignment of 3,315 out of 8,876 previously unmapped genes to the respective chromosomes. In total, the GenomeZipper incorporates 4,035 conserved grass gene loci, which were used for the first genome-wide sequence divergence analysis between perennial ryegrass, barley, Brachypodium, rice, and sorghum. The perennial ryegrass GenomeZipper is an ordered, information-rich genome scaffold, facilitating map-based cloning and genome assembly in perennial ryegrass and closely related Poaceae species. It also represents a milestone in describing synteny between perennial ryegrass and fully sequenced model grass genomes, thereby increasing our understanding of genome organization and evolution in the most important temperate forage and turf grass species.</jats:p>
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author Pfeifer, Matthias, Martis, Mihaela, Asp, Torben, Mayer, Klaus F.X., Lübberstedt, Thomas, Byrne, Stephen, Frei, Ursula, Studer, Bruno
author_facet Pfeifer, Matthias, Martis, Mihaela, Asp, Torben, Mayer, Klaus F.X., Lübberstedt, Thomas, Byrne, Stephen, Frei, Ursula, Studer, Bruno, Pfeifer, Matthias, Martis, Mihaela, Asp, Torben, Mayer, Klaus F.X., Lübberstedt, Thomas, Byrne, Stephen, Frei, Ursula, Studer, Bruno
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description <jats:title>Abstract</jats:title><jats:p>Whole-genome sequences established for model and major crop species constitute a key resource for advanced genomic research. For outbreeding forage and turf grass species like ryegrasses (Lolium spp.), such resources have yet to be developed. Here, we present a model of the perennial ryegrass (Lolium perenne) genome on the basis of conserved synteny to barley (Hordeum vulgare) and the model grass genome Brachypodium (Brachypodium distachyon) as well as rice (Oryza sativa) and sorghum (Sorghum bicolor). A transcriptome-based genetic linkage map of perennial ryegrass served as a scaffold to establish the chromosomal arrangement of syntenic genes from model grass species. This scaffold revealed a high degree of synteny and macrocollinearity and was then utilized to anchor a collection of perennial ryegrass genes in silico to their predicted genome positions. This resulted in the unambiguous assignment of 3,315 out of 8,876 previously unmapped genes to the respective chromosomes. In total, the GenomeZipper incorporates 4,035 conserved grass gene loci, which were used for the first genome-wide sequence divergence analysis between perennial ryegrass, barley, Brachypodium, rice, and sorghum. The perennial ryegrass GenomeZipper is an ordered, information-rich genome scaffold, facilitating map-based cloning and genome assembly in perennial ryegrass and closely related Poaceae species. It also represents a milestone in describing synteny between perennial ryegrass and fully sequenced model grass genomes, thereby increasing our understanding of genome organization and evolution in the most important temperate forage and turf grass species.</jats:p>
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spelling Pfeifer, Matthias Martis, Mihaela Asp, Torben Mayer, Klaus F.X. Lübberstedt, Thomas Byrne, Stephen Frei, Ursula Studer, Bruno 1532-2548 Oxford University Press (OUP) Plant Science Genetics Physiology http://dx.doi.org/10.1104/pp.112.207282 <jats:title>Abstract</jats:title><jats:p>Whole-genome sequences established for model and major crop species constitute a key resource for advanced genomic research. For outbreeding forage and turf grass species like ryegrasses (Lolium spp.), such resources have yet to be developed. Here, we present a model of the perennial ryegrass (Lolium perenne) genome on the basis of conserved synteny to barley (Hordeum vulgare) and the model grass genome Brachypodium (Brachypodium distachyon) as well as rice (Oryza sativa) and sorghum (Sorghum bicolor). A transcriptome-based genetic linkage map of perennial ryegrass served as a scaffold to establish the chromosomal arrangement of syntenic genes from model grass species. This scaffold revealed a high degree of synteny and macrocollinearity and was then utilized to anchor a collection of perennial ryegrass genes in silico to their predicted genome positions. This resulted in the unambiguous assignment of 3,315 out of 8,876 previously unmapped genes to the respective chromosomes. In total, the GenomeZipper incorporates 4,035 conserved grass gene loci, which were used for the first genome-wide sequence divergence analysis between perennial ryegrass, barley, Brachypodium, rice, and sorghum. The perennial ryegrass GenomeZipper is an ordered, information-rich genome scaffold, facilitating map-based cloning and genome assembly in perennial ryegrass and closely related Poaceae species. It also represents a milestone in describing synteny between perennial ryegrass and fully sequenced model grass genomes, thereby increasing our understanding of genome organization and evolution in the most important temperate forage and turf grass species.</jats:p> The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics Plant Physiology
spellingShingle Pfeifer, Matthias, Martis, Mihaela, Asp, Torben, Mayer, Klaus F.X., Lübberstedt, Thomas, Byrne, Stephen, Frei, Ursula, Studer, Bruno, Plant Physiology, The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics, Plant Science, Genetics, Physiology
title The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_full The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_fullStr The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_full_unstemmed The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_short The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
title_sort the perennial ryegrass genomezipper: targeted use of genome resources for comparative grass genomics
title_unstemmed The Perennial Ryegrass GenomeZipper: Targeted Use of Genome Resources for Comparative Grass Genomics
topic Plant Science, Genetics, Physiology
url http://dx.doi.org/10.1104/pp.112.207282