SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids

Many plant species of great economic value (e.g., potato, wheat, cotton, and sugarcane) are polyploids. Despite the essential roles of autopolyploid plants in human activities, our genetic understanding of these species is still poor. Recent progress in instrumentation and biochemical manipulation h...

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Autores principales: Garcia, Antonio A. F., Mollinari, Marcelo, Marconi, Thiago G., Serang, Oliver R., Silva, Renato R., Vieira, Maria L. C., Vicentini, Renato, Costa, Estela A., Mancini, Melina C., Garcia, Melissa O. S., Pastina, Maria M., Gazaffi, Rodrigo, Martins, Eliana R. F., Dahmer, Nair, Sforça, Danilo A., Silva, Claudio B. C., Bundock, Peter, Henry, Robert J., Souza, Glaucia M., van Sluys, Marie-Anne, Landell, Marcos G. A., Carneiro, Monalisa S., Vincentz, Michel A. G., Pinto, Luciana R., Vencovsky, Roland, Souza, Anete P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2013
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3844970/
https://www.ncbi.nlm.nih.gov/pubmed/24292365
http://dx.doi.org/10.1038/srep03399
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author Garcia, Antonio A. F.
Mollinari, Marcelo
Marconi, Thiago G.
Serang, Oliver R.
Silva, Renato R.
Vieira, Maria L. C.
Vicentini, Renato
Costa, Estela A.
Mancini, Melina C.
Garcia, Melissa O. S.
Pastina, Maria M.
Gazaffi, Rodrigo
Martins, Eliana R. F.
Dahmer, Nair
Sforça, Danilo A.
Silva, Claudio B. C.
Bundock, Peter
Henry, Robert J.
Souza, Glaucia M.
van Sluys, Marie-Anne
Landell, Marcos G. A.
Carneiro, Monalisa S.
Vincentz, Michel A. G.
Pinto, Luciana R.
Vencovsky, Roland
Souza, Anete P.
author_facet Garcia, Antonio A. F.
Mollinari, Marcelo
Marconi, Thiago G.
Serang, Oliver R.
Silva, Renato R.
Vieira, Maria L. C.
Vicentini, Renato
Costa, Estela A.
Mancini, Melina C.
Garcia, Melissa O. S.
Pastina, Maria M.
Gazaffi, Rodrigo
Martins, Eliana R. F.
Dahmer, Nair
Sforça, Danilo A.
Silva, Claudio B. C.
Bundock, Peter
Henry, Robert J.
Souza, Glaucia M.
van Sluys, Marie-Anne
Landell, Marcos G. A.
Carneiro, Monalisa S.
Vincentz, Michel A. G.
Pinto, Luciana R.
Vencovsky, Roland
Souza, Anete P.
author_sort Garcia, Antonio A. F.
collection PubMed
description Many plant species of great economic value (e.g., potato, wheat, cotton, and sugarcane) are polyploids. Despite the essential roles of autopolyploid plants in human activities, our genetic understanding of these species is still poor. Recent progress in instrumentation and biochemical manipulation has led to the accumulation of an incredible amount of genomic data. In this study, we demonstrate for the first time a successful genetic analysis in a highly polyploid genome (sugarcane) by the quantitative analysis of single-nucleotide polymorphism (SNP) allelic dosage and the application of a new data analysis framework. This study provides a better understanding of autopolyploid genomic structure and is a sound basis for genetic studies. The proposed methods can be employed to analyse the genome of any autopolyploid and will permit the future development of high-quality genetic maps to assist in the assembly of reference genome sequences for polyploid species.
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spelling pubmed-38449702013-12-02 SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids Garcia, Antonio A. F. Mollinari, Marcelo Marconi, Thiago G. Serang, Oliver R. Silva, Renato R. Vieira, Maria L. C. Vicentini, Renato Costa, Estela A. Mancini, Melina C. Garcia, Melissa O. S. Pastina, Maria M. Gazaffi, Rodrigo Martins, Eliana R. F. Dahmer, Nair Sforça, Danilo A. Silva, Claudio B. C. Bundock, Peter Henry, Robert J. Souza, Glaucia M. van Sluys, Marie-Anne Landell, Marcos G. A. Carneiro, Monalisa S. Vincentz, Michel A. G. Pinto, Luciana R. Vencovsky, Roland Souza, Anete P. Sci Rep Article Many plant species of great economic value (e.g., potato, wheat, cotton, and sugarcane) are polyploids. Despite the essential roles of autopolyploid plants in human activities, our genetic understanding of these species is still poor. Recent progress in instrumentation and biochemical manipulation has led to the accumulation of an incredible amount of genomic data. In this study, we demonstrate for the first time a successful genetic analysis in a highly polyploid genome (sugarcane) by the quantitative analysis of single-nucleotide polymorphism (SNP) allelic dosage and the application of a new data analysis framework. This study provides a better understanding of autopolyploid genomic structure and is a sound basis for genetic studies. The proposed methods can be employed to analyse the genome of any autopolyploid and will permit the future development of high-quality genetic maps to assist in the assembly of reference genome sequences for polyploid species. Nature Publishing Group 2013-12-02 /pmc/articles/PMC3844970/ /pubmed/24292365 http://dx.doi.org/10.1038/srep03399 Text en Copyright © 2013, Macmillan Publishers Limited. All rights reserved http://creativecommons.org/licenses/by-nc-sa/3.0/ This work is licensed under a Creative Commons Attribution-NonCommercial-ShareALike 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/
spellingShingle Article
Garcia, Antonio A. F.
Mollinari, Marcelo
Marconi, Thiago G.
Serang, Oliver R.
Silva, Renato R.
Vieira, Maria L. C.
Vicentini, Renato
Costa, Estela A.
Mancini, Melina C.
Garcia, Melissa O. S.
Pastina, Maria M.
Gazaffi, Rodrigo
Martins, Eliana R. F.
Dahmer, Nair
Sforça, Danilo A.
Silva, Claudio B. C.
Bundock, Peter
Henry, Robert J.
Souza, Glaucia M.
van Sluys, Marie-Anne
Landell, Marcos G. A.
Carneiro, Monalisa S.
Vincentz, Michel A. G.
Pinto, Luciana R.
Vencovsky, Roland
Souza, Anete P.
SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids
title SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids
title_full SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids
title_fullStr SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids
title_full_unstemmed SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids
title_short SNP genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids
title_sort snp genotyping allows an in-depth characterisation of the genome of sugarcane and other complex autopolyploids
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3844970/
https://www.ncbi.nlm.nih.gov/pubmed/24292365
http://dx.doi.org/10.1038/srep03399
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