A physical map of the papaya genome with integrated genetic map and genome sequence

BACKGROUND: Papaya is a major fruit crop in tropical and subtropical regions worldwide and has primitive sex chromosomes controlling sex determination in this trioecious species. The papaya genome was recently sequenced because of its agricultural importance, unique biological features, and successf...

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Autores principales: Yu, Qingyi, Tong, Eric, Skelton, Rachel L, Bowers, John E, Jones, Meghan R, Murray, Jan E, Hou, Shaobin, Guan, Peizhu, Acob, Ricelle A, Luo, Ming-Cheng, Moore, Paul H, Alam, Maqsudul, Paterson, Andrew H, Ming, Ray
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2009
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3224731/
https://www.ncbi.nlm.nih.gov/pubmed/19664231
http://dx.doi.org/10.1186/1471-2164-10-371
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author Yu, Qingyi
Tong, Eric
Skelton, Rachel L
Bowers, John E
Jones, Meghan R
Murray, Jan E
Hou, Shaobin
Guan, Peizhu
Acob, Ricelle A
Luo, Ming-Cheng
Moore, Paul H
Alam, Maqsudul
Paterson, Andrew H
Ming, Ray
author_facet Yu, Qingyi
Tong, Eric
Skelton, Rachel L
Bowers, John E
Jones, Meghan R
Murray, Jan E
Hou, Shaobin
Guan, Peizhu
Acob, Ricelle A
Luo, Ming-Cheng
Moore, Paul H
Alam, Maqsudul
Paterson, Andrew H
Ming, Ray
author_sort Yu, Qingyi
collection PubMed
description BACKGROUND: Papaya is a major fruit crop in tropical and subtropical regions worldwide and has primitive sex chromosomes controlling sex determination in this trioecious species. The papaya genome was recently sequenced because of its agricultural importance, unique biological features, and successful application of transgenic papaya for resistance to papaya ringspot virus. As a part of the genome sequencing project, we constructed a BAC-based physical map using a high information-content fingerprinting approach to assist whole genome shotgun sequence assembly. RESULTS: The physical map consists of 963 contigs, representing 9.4× genome equivalents, and was integrated with the genetic map and genome sequence using BAC end sequences and a sequence-tagged high-density genetic map. The estimated genome coverage of the physical map is about 95.8%, while 72.4% of the genome was aligned to the genetic map. A total of 1,181 high quality overgo (overlapping oligonucleotide) probes representing conserved sequences in Arabidopsis and genetically mapped loci in Brassica were anchored on the physical map, which provides a foundation for comparative genomics in the Brassicales. The integrated genetic and physical map aligned with the genome sequence revealed recombination hotspots as well as regions suppressed for recombination across the genome, particularly on the recently evolved sex chromosomes. Suppression of recombination spread to the adjacent region of the male specific region of the Y chromosome (MSY), and recombination rates were recovered gradually and then exceeded the genome average. Recombination hotspots were observed at about 10 Mb away on both sides of the MSY, showing 7-fold increase compared with the genome wide average, demonstrating the dynamics of recombination of the sex chromosomes. CONCLUSION: A BAC-based physical map of papaya was constructed and integrated with the genetic map and genome sequence. The integrated map facilitated the draft genome assembly, and is a valuable resource for comparative genomics and map-based cloning of agronomically and economically important genes and for sex chromosome research.
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spelling pubmed-32247312011-11-28 A physical map of the papaya genome with integrated genetic map and genome sequence Yu, Qingyi Tong, Eric Skelton, Rachel L Bowers, John E Jones, Meghan R Murray, Jan E Hou, Shaobin Guan, Peizhu Acob, Ricelle A Luo, Ming-Cheng Moore, Paul H Alam, Maqsudul Paterson, Andrew H Ming, Ray BMC Genomics Research Article BACKGROUND: Papaya is a major fruit crop in tropical and subtropical regions worldwide and has primitive sex chromosomes controlling sex determination in this trioecious species. The papaya genome was recently sequenced because of its agricultural importance, unique biological features, and successful application of transgenic papaya for resistance to papaya ringspot virus. As a part of the genome sequencing project, we constructed a BAC-based physical map using a high information-content fingerprinting approach to assist whole genome shotgun sequence assembly. RESULTS: The physical map consists of 963 contigs, representing 9.4× genome equivalents, and was integrated with the genetic map and genome sequence using BAC end sequences and a sequence-tagged high-density genetic map. The estimated genome coverage of the physical map is about 95.8%, while 72.4% of the genome was aligned to the genetic map. A total of 1,181 high quality overgo (overlapping oligonucleotide) probes representing conserved sequences in Arabidopsis and genetically mapped loci in Brassica were anchored on the physical map, which provides a foundation for comparative genomics in the Brassicales. The integrated genetic and physical map aligned with the genome sequence revealed recombination hotspots as well as regions suppressed for recombination across the genome, particularly on the recently evolved sex chromosomes. Suppression of recombination spread to the adjacent region of the male specific region of the Y chromosome (MSY), and recombination rates were recovered gradually and then exceeded the genome average. Recombination hotspots were observed at about 10 Mb away on both sides of the MSY, showing 7-fold increase compared with the genome wide average, demonstrating the dynamics of recombination of the sex chromosomes. CONCLUSION: A BAC-based physical map of papaya was constructed and integrated with the genetic map and genome sequence. The integrated map facilitated the draft genome assembly, and is a valuable resource for comparative genomics and map-based cloning of agronomically and economically important genes and for sex chromosome research. BioMed Central 2009-08-07 /pmc/articles/PMC3224731/ /pubmed/19664231 http://dx.doi.org/10.1186/1471-2164-10-371 Text en Copyright ©2009 Yu 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
Yu, Qingyi
Tong, Eric
Skelton, Rachel L
Bowers, John E
Jones, Meghan R
Murray, Jan E
Hou, Shaobin
Guan, Peizhu
Acob, Ricelle A
Luo, Ming-Cheng
Moore, Paul H
Alam, Maqsudul
Paterson, Andrew H
Ming, Ray
A physical map of the papaya genome with integrated genetic map and genome sequence
title A physical map of the papaya genome with integrated genetic map and genome sequence
title_full A physical map of the papaya genome with integrated genetic map and genome sequence
title_fullStr A physical map of the papaya genome with integrated genetic map and genome sequence
title_full_unstemmed A physical map of the papaya genome with integrated genetic map and genome sequence
title_short A physical map of the papaya genome with integrated genetic map and genome sequence
title_sort physical map of the papaya genome with integrated genetic map and genome sequence
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3224731/
https://www.ncbi.nlm.nih.gov/pubmed/19664231
http://dx.doi.org/10.1186/1471-2164-10-371
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