Analysis of the bread wheat genome using whole genome shotgun sequencing

Bread wheat (Triticum aestivum) is a globally important crop, accounting for 20% of the calories consumed by mankind. We sequenced its large and challenging 17 Gb hexaploid genome using 454 pyrosequencing and compared this with the sequences of diploid ancestral and progenitor genomes. Between 94,00...

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Autores principales: Brenchley, Rachel, Spannagl, Manuel, Pfeifer, Matthias, Barker, Gary L.A., D’Amore, Rosalinda, Allen, Alexandra M., McKenzie, Neil, Kramer, Melissa, Kerhornou, Arnaud, Bolser, Dan, Kay, Suzanne, Waite, Darren, Trick, Martin, Bancroft, Ian, Gu, Yong, Huo, Naxin, Luo, Ming-Cheng, Sehgal, Sunish, Kianian, Sharyar, Gill, Bikram, Anderson, Olin, Kersey, Paul, Dvorak, Jan, McCombie, Richard, Hall, Anthony, Mayer, Klaus F.X., Edwards, Keith J., Bevan, Michael W., Hall, Neil
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2012
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3510651/
https://www.ncbi.nlm.nih.gov/pubmed/23192148
http://dx.doi.org/10.1038/nature11650
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author Brenchley, Rachel
Spannagl, Manuel
Pfeifer, Matthias
Barker, Gary L.A.
D’Amore, Rosalinda
Allen, Alexandra M.
McKenzie, Neil
Kramer, Melissa
Kerhornou, Arnaud
Bolser, Dan
Kay, Suzanne
Waite, Darren
Trick, Martin
Bancroft, Ian
Gu, Yong
Huo, Naxin
Luo, Ming-Cheng
Sehgal, Sunish
Kianian, Sharyar
Gill, Bikram
Anderson, Olin
Kersey, Paul
Dvorak, Jan
McCombie, Richard
Hall, Anthony
Mayer, Klaus F.X.
Edwards, Keith J.
Bevan, Michael W.
Hall, Neil
author_facet Brenchley, Rachel
Spannagl, Manuel
Pfeifer, Matthias
Barker, Gary L.A.
D’Amore, Rosalinda
Allen, Alexandra M.
McKenzie, Neil
Kramer, Melissa
Kerhornou, Arnaud
Bolser, Dan
Kay, Suzanne
Waite, Darren
Trick, Martin
Bancroft, Ian
Gu, Yong
Huo, Naxin
Luo, Ming-Cheng
Sehgal, Sunish
Kianian, Sharyar
Gill, Bikram
Anderson, Olin
Kersey, Paul
Dvorak, Jan
McCombie, Richard
Hall, Anthony
Mayer, Klaus F.X.
Edwards, Keith J.
Bevan, Michael W.
Hall, Neil
author_sort Brenchley, Rachel
collection PubMed
description Bread wheat (Triticum aestivum) is a globally important crop, accounting for 20% of the calories consumed by mankind. We sequenced its large and challenging 17 Gb hexaploid genome using 454 pyrosequencing and compared this with the sequences of diploid ancestral and progenitor genomes. Between 94,000-96,000 genes were identified, and two-thirds were assigned to the A, B and D genomes. High-resolution synteny maps identified many small disruptions to conserved gene order. We show the hexaploid genome is highly dynamic, with significant loss of gene family members upon polyploidization and domestication, and an abundance of gene fragments. Several classes of genes involved in energy harvesting, metabolism and growth are among expanded gene families that could be associated with crop productivity. Our analyses, coupled with the identification of extensive genetic variation, provide a new resource for accelerating gene discovery and improving this major crop.
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spelling pubmed-35106512013-05-29 Analysis of the bread wheat genome using whole genome shotgun sequencing Brenchley, Rachel Spannagl, Manuel Pfeifer, Matthias Barker, Gary L.A. D’Amore, Rosalinda Allen, Alexandra M. McKenzie, Neil Kramer, Melissa Kerhornou, Arnaud Bolser, Dan Kay, Suzanne Waite, Darren Trick, Martin Bancroft, Ian Gu, Yong Huo, Naxin Luo, Ming-Cheng Sehgal, Sunish Kianian, Sharyar Gill, Bikram Anderson, Olin Kersey, Paul Dvorak, Jan McCombie, Richard Hall, Anthony Mayer, Klaus F.X. Edwards, Keith J. Bevan, Michael W. Hall, Neil Nature Article Bread wheat (Triticum aestivum) is a globally important crop, accounting for 20% of the calories consumed by mankind. We sequenced its large and challenging 17 Gb hexaploid genome using 454 pyrosequencing and compared this with the sequences of diploid ancestral and progenitor genomes. Between 94,000-96,000 genes were identified, and two-thirds were assigned to the A, B and D genomes. High-resolution synteny maps identified many small disruptions to conserved gene order. We show the hexaploid genome is highly dynamic, with significant loss of gene family members upon polyploidization and domestication, and an abundance of gene fragments. Several classes of genes involved in energy harvesting, metabolism and growth are among expanded gene families that could be associated with crop productivity. Our analyses, coupled with the identification of extensive genetic variation, provide a new resource for accelerating gene discovery and improving this major crop. 2012-11-29 /pmc/articles/PMC3510651/ /pubmed/23192148 http://dx.doi.org/10.1038/nature11650 Text en Users may view, print, copy, download and text and data- mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Brenchley, Rachel
Spannagl, Manuel
Pfeifer, Matthias
Barker, Gary L.A.
D’Amore, Rosalinda
Allen, Alexandra M.
McKenzie, Neil
Kramer, Melissa
Kerhornou, Arnaud
Bolser, Dan
Kay, Suzanne
Waite, Darren
Trick, Martin
Bancroft, Ian
Gu, Yong
Huo, Naxin
Luo, Ming-Cheng
Sehgal, Sunish
Kianian, Sharyar
Gill, Bikram
Anderson, Olin
Kersey, Paul
Dvorak, Jan
McCombie, Richard
Hall, Anthony
Mayer, Klaus F.X.
Edwards, Keith J.
Bevan, Michael W.
Hall, Neil
Analysis of the bread wheat genome using whole genome shotgun sequencing
title Analysis of the bread wheat genome using whole genome shotgun sequencing
title_full Analysis of the bread wheat genome using whole genome shotgun sequencing
title_fullStr Analysis of the bread wheat genome using whole genome shotgun sequencing
title_full_unstemmed Analysis of the bread wheat genome using whole genome shotgun sequencing
title_short Analysis of the bread wheat genome using whole genome shotgun sequencing
title_sort analysis of the bread wheat genome using whole genome shotgun sequencing
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3510651/
https://www.ncbi.nlm.nih.gov/pubmed/23192148
http://dx.doi.org/10.1038/nature11650
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