Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding

Genome-enabled biotechnologies have the potential to accelerate breeding efforts in long-lived perennial crop species. Despite the transformative potential of molecular tools in pecan and other outcrossing tree species, highly heterozygous genomes, significant presence–absence gene content variation...

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Autores principales: Lovell, John T., Bentley, Nolan B., Bhattarai, Gaurab, Jenkins, Jerry W., Sreedasyam, Avinash, Alarcon, Yanina, Bock, Clive, Boston, Lori Beth, Carlson, Joseph, Cervantes, Kimberly, Clermont, Kristen, Duke, Sara, Krom, Nick, Kubenka, Keith, Mamidi, Sujan, Mattison, Christopher P., Monteros, Maria J., Pisani, Cristina, Plott, Christopher, Rajasekar, Shanmugam, Rhein, Hormat Shadgou, Rohla, Charles, Song, Mingzhou, Hilaire, Rolston St., Shu, Shengqiang, Wells, Lenny, Webber, Jenell, Heerema, Richard J., Klein, Patricia E., Conner, Patrick, Wang, Xinwang, Grauke, L. J., Grimwood, Jane, Schmutz, Jeremy, Randall, Jennifer J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8257795/
https://www.ncbi.nlm.nih.gov/pubmed/34226565
http://dx.doi.org/10.1038/s41467-021-24328-w
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author Lovell, John T.
Bentley, Nolan B.
Bhattarai, Gaurab
Jenkins, Jerry W.
Sreedasyam, Avinash
Alarcon, Yanina
Bock, Clive
Boston, Lori Beth
Carlson, Joseph
Cervantes, Kimberly
Clermont, Kristen
Duke, Sara
Krom, Nick
Kubenka, Keith
Mamidi, Sujan
Mattison, Christopher P.
Monteros, Maria J.
Pisani, Cristina
Plott, Christopher
Rajasekar, Shanmugam
Rhein, Hormat Shadgou
Rohla, Charles
Song, Mingzhou
Hilaire, Rolston St.
Shu, Shengqiang
Wells, Lenny
Webber, Jenell
Heerema, Richard J.
Klein, Patricia E.
Conner, Patrick
Wang, Xinwang
Grauke, L. J.
Grimwood, Jane
Schmutz, Jeremy
Randall, Jennifer J.
author_facet Lovell, John T.
Bentley, Nolan B.
Bhattarai, Gaurab
Jenkins, Jerry W.
Sreedasyam, Avinash
Alarcon, Yanina
Bock, Clive
Boston, Lori Beth
Carlson, Joseph
Cervantes, Kimberly
Clermont, Kristen
Duke, Sara
Krom, Nick
Kubenka, Keith
Mamidi, Sujan
Mattison, Christopher P.
Monteros, Maria J.
Pisani, Cristina
Plott, Christopher
Rajasekar, Shanmugam
Rhein, Hormat Shadgou
Rohla, Charles
Song, Mingzhou
Hilaire, Rolston St.
Shu, Shengqiang
Wells, Lenny
Webber, Jenell
Heerema, Richard J.
Klein, Patricia E.
Conner, Patrick
Wang, Xinwang
Grauke, L. J.
Grimwood, Jane
Schmutz, Jeremy
Randall, Jennifer J.
author_sort Lovell, John T.
collection PubMed
description Genome-enabled biotechnologies have the potential to accelerate breeding efforts in long-lived perennial crop species. Despite the transformative potential of molecular tools in pecan and other outcrossing tree species, highly heterozygous genomes, significant presence–absence gene content variation, and histories of interspecific hybridization have constrained breeding efforts. To overcome these challenges, here, we present diploid genome assemblies and annotations of four outbred pecan genotypes, including a PacBio HiFi chromosome-scale assembly of both haplotypes of the ‘Pawnee’ cultivar. Comparative analysis and pan-genome integration reveal substantial and likely adaptive interspecific genomic introgressions, including an over-retained haplotype introgressed from bitternut hickory into pecan breeding pedigrees. Further, by leveraging our pan-genome presence–absence and functional annotation database among genomes and within the two outbred haplotypes of the ‘Lakota’ genome, we identify candidate genes for pest and pathogen resistance. Combined, these analyses and resources highlight significant progress towards functional and quantitative genomics in highly diverse and outbred crops.
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spelling pubmed-82577952021-07-23 Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding Lovell, John T. Bentley, Nolan B. Bhattarai, Gaurab Jenkins, Jerry W. Sreedasyam, Avinash Alarcon, Yanina Bock, Clive Boston, Lori Beth Carlson, Joseph Cervantes, Kimberly Clermont, Kristen Duke, Sara Krom, Nick Kubenka, Keith Mamidi, Sujan Mattison, Christopher P. Monteros, Maria J. Pisani, Cristina Plott, Christopher Rajasekar, Shanmugam Rhein, Hormat Shadgou Rohla, Charles Song, Mingzhou Hilaire, Rolston St. Shu, Shengqiang Wells, Lenny Webber, Jenell Heerema, Richard J. Klein, Patricia E. Conner, Patrick Wang, Xinwang Grauke, L. J. Grimwood, Jane Schmutz, Jeremy Randall, Jennifer J. Nat Commun Article Genome-enabled biotechnologies have the potential to accelerate breeding efforts in long-lived perennial crop species. Despite the transformative potential of molecular tools in pecan and other outcrossing tree species, highly heterozygous genomes, significant presence–absence gene content variation, and histories of interspecific hybridization have constrained breeding efforts. To overcome these challenges, here, we present diploid genome assemblies and annotations of four outbred pecan genotypes, including a PacBio HiFi chromosome-scale assembly of both haplotypes of the ‘Pawnee’ cultivar. Comparative analysis and pan-genome integration reveal substantial and likely adaptive interspecific genomic introgressions, including an over-retained haplotype introgressed from bitternut hickory into pecan breeding pedigrees. Further, by leveraging our pan-genome presence–absence and functional annotation database among genomes and within the two outbred haplotypes of the ‘Lakota’ genome, we identify candidate genes for pest and pathogen resistance. Combined, these analyses and resources highlight significant progress towards functional and quantitative genomics in highly diverse and outbred crops. Nature Publishing Group UK 2021-07-05 /pmc/articles/PMC8257795/ /pubmed/34226565 http://dx.doi.org/10.1038/s41467-021-24328-w Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Lovell, John T.
Bentley, Nolan B.
Bhattarai, Gaurab
Jenkins, Jerry W.
Sreedasyam, Avinash
Alarcon, Yanina
Bock, Clive
Boston, Lori Beth
Carlson, Joseph
Cervantes, Kimberly
Clermont, Kristen
Duke, Sara
Krom, Nick
Kubenka, Keith
Mamidi, Sujan
Mattison, Christopher P.
Monteros, Maria J.
Pisani, Cristina
Plott, Christopher
Rajasekar, Shanmugam
Rhein, Hormat Shadgou
Rohla, Charles
Song, Mingzhou
Hilaire, Rolston St.
Shu, Shengqiang
Wells, Lenny
Webber, Jenell
Heerema, Richard J.
Klein, Patricia E.
Conner, Patrick
Wang, Xinwang
Grauke, L. J.
Grimwood, Jane
Schmutz, Jeremy
Randall, Jennifer J.
Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding
title Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding
title_full Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding
title_fullStr Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding
title_full_unstemmed Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding
title_short Four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding
title_sort four chromosome scale genomes and a pan-genome annotation to accelerate pecan tree breeding
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8257795/
https://www.ncbi.nlm.nih.gov/pubmed/34226565
http://dx.doi.org/10.1038/s41467-021-24328-w
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