A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations

BACKGROUND: Evolution of the Brassica species has been recursively affected by polyploidy events, and comparison to their relative, Arabidopsis thaliana, provides means to explore their genomic complexity. RESULTS: A genome-wide physical map of a rapid-cycling strain of B. oleracea was constructed b...

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Autores principales: Wang, Xiyin, Torres, Manuel J, Pierce, Gary, Lemke, Cornelia, Nelson, Lisa K, Yuksel, Bayram, Bowers, John E, Marler, Barry, Xiao, Yongli, Lin, Lifeng, Epps, Ethan, Sarazen, Heidi, Rogers, Carl, Karunakaran, Santhosh, Ingles, Jennifer, Giattina, Emily, Mun, Jeong-Hwan, Seol, Young-Joo, Park, Beom-Seok, Amasino, Richard M, Quiros, Carlos F, Osborn, Thomas C, Pires, J Chris, Town, Christopher, Paterson, Andrew H
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3193055/
https://www.ncbi.nlm.nih.gov/pubmed/21955929
http://dx.doi.org/10.1186/1471-2164-12-470
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author Wang, Xiyin
Torres, Manuel J
Pierce, Gary
Lemke, Cornelia
Nelson, Lisa K
Yuksel, Bayram
Bowers, John E
Marler, Barry
Xiao, Yongli
Lin, Lifeng
Epps, Ethan
Sarazen, Heidi
Rogers, Carl
Karunakaran, Santhosh
Ingles, Jennifer
Giattina, Emily
Mun, Jeong-Hwan
Seol, Young-Joo
Park, Beom-Seok
Amasino, Richard M
Quiros, Carlos F
Osborn, Thomas C
Pires, J Chris
Town, Christopher
Paterson, Andrew H
author_facet Wang, Xiyin
Torres, Manuel J
Pierce, Gary
Lemke, Cornelia
Nelson, Lisa K
Yuksel, Bayram
Bowers, John E
Marler, Barry
Xiao, Yongli
Lin, Lifeng
Epps, Ethan
Sarazen, Heidi
Rogers, Carl
Karunakaran, Santhosh
Ingles, Jennifer
Giattina, Emily
Mun, Jeong-Hwan
Seol, Young-Joo
Park, Beom-Seok
Amasino, Richard M
Quiros, Carlos F
Osborn, Thomas C
Pires, J Chris
Town, Christopher
Paterson, Andrew H
author_sort Wang, Xiyin
collection PubMed
description BACKGROUND: Evolution of the Brassica species has been recursively affected by polyploidy events, and comparison to their relative, Arabidopsis thaliana, provides means to explore their genomic complexity. RESULTS: A genome-wide physical map of a rapid-cycling strain of B. oleracea was constructed by integrating high-information-content fingerprinting (HICF) of Bacterial Artificial Chromosome (BAC) clones with hybridization to sequence-tagged probes. Using 2907 contigs of two or more BACs, we performed several lines of comparative genomic analysis. Interspecific DNA synteny is much better preserved in euchromatin than heterochromatin, showing the qualitative difference in evolution of these respective genomic domains. About 67% of contigs can be aligned to the Arabidopsis genome, with 96.5% corresponding to euchromatic regions, and 3.5% (shown to contain repetitive sequences) to pericentromeric regions. Overgo probe hybridization data showed that contigs aligned to Arabidopsis euchromatin contain ~80% of low-copy-number genes, while genes with high copy number are much more frequently associated with pericentromeric regions. We identified 39 interchromosomal breakpoints during the diversification of B. oleracea and Arabidopsis thaliana, a relatively high level of genomic change since their divergence. Comparison of the B. oleracea physical map with Arabidopsis and other available eudicot genomes showed appreciable 'shadowing' produced by more ancient polyploidies, resulting in a web of relatedness among contigs which increased genomic complexity. CONCLUSIONS: A high-resolution genetically-anchored physical map sheds light on Brassica genome organization and advances positional cloning of specific genes, and may help to validate genome sequence assembly and alignment to chromosomes. All the physical mapping data is freely shared at a WebFPC site (http://lulu.pgml.uga.edu/fpc/WebAGCoL/brassica/WebFPC/; Temporarily password-protected: account: pgml; password: 123qwe123.
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spelling pubmed-31930552011-10-15 A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations Wang, Xiyin Torres, Manuel J Pierce, Gary Lemke, Cornelia Nelson, Lisa K Yuksel, Bayram Bowers, John E Marler, Barry Xiao, Yongli Lin, Lifeng Epps, Ethan Sarazen, Heidi Rogers, Carl Karunakaran, Santhosh Ingles, Jennifer Giattina, Emily Mun, Jeong-Hwan Seol, Young-Joo Park, Beom-Seok Amasino, Richard M Quiros, Carlos F Osborn, Thomas C Pires, J Chris Town, Christopher Paterson, Andrew H BMC Genomics Research Article BACKGROUND: Evolution of the Brassica species has been recursively affected by polyploidy events, and comparison to their relative, Arabidopsis thaliana, provides means to explore their genomic complexity. RESULTS: A genome-wide physical map of a rapid-cycling strain of B. oleracea was constructed by integrating high-information-content fingerprinting (HICF) of Bacterial Artificial Chromosome (BAC) clones with hybridization to sequence-tagged probes. Using 2907 contigs of two or more BACs, we performed several lines of comparative genomic analysis. Interspecific DNA synteny is much better preserved in euchromatin than heterochromatin, showing the qualitative difference in evolution of these respective genomic domains. About 67% of contigs can be aligned to the Arabidopsis genome, with 96.5% corresponding to euchromatic regions, and 3.5% (shown to contain repetitive sequences) to pericentromeric regions. Overgo probe hybridization data showed that contigs aligned to Arabidopsis euchromatin contain ~80% of low-copy-number genes, while genes with high copy number are much more frequently associated with pericentromeric regions. We identified 39 interchromosomal breakpoints during the diversification of B. oleracea and Arabidopsis thaliana, a relatively high level of genomic change since their divergence. Comparison of the B. oleracea physical map with Arabidopsis and other available eudicot genomes showed appreciable 'shadowing' produced by more ancient polyploidies, resulting in a web of relatedness among contigs which increased genomic complexity. CONCLUSIONS: A high-resolution genetically-anchored physical map sheds light on Brassica genome organization and advances positional cloning of specific genes, and may help to validate genome sequence assembly and alignment to chromosomes. All the physical mapping data is freely shared at a WebFPC site (http://lulu.pgml.uga.edu/fpc/WebAGCoL/brassica/WebFPC/; Temporarily password-protected: account: pgml; password: 123qwe123. BioMed Central 2011-09-28 /pmc/articles/PMC3193055/ /pubmed/21955929 http://dx.doi.org/10.1186/1471-2164-12-470 Text en Copyright ©2011 Wang et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Wang, Xiyin
Torres, Manuel J
Pierce, Gary
Lemke, Cornelia
Nelson, Lisa K
Yuksel, Bayram
Bowers, John E
Marler, Barry
Xiao, Yongli
Lin, Lifeng
Epps, Ethan
Sarazen, Heidi
Rogers, Carl
Karunakaran, Santhosh
Ingles, Jennifer
Giattina, Emily
Mun, Jeong-Hwan
Seol, Young-Joo
Park, Beom-Seok
Amasino, Richard M
Quiros, Carlos F
Osborn, Thomas C
Pires, J Chris
Town, Christopher
Paterson, Andrew H
A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations
title A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations
title_full A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations
title_fullStr A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations
title_full_unstemmed A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations
title_short A physical map of Brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations
title_sort physical map of brassica oleracea shows complexity of chromosomal changes following recursive paleopolyploidizations
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3193055/
https://www.ncbi.nlm.nih.gov/pubmed/21955929
http://dx.doi.org/10.1186/1471-2164-12-470
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