Capturing sequence diversity in metagenomes with comprehensive and scalable probe design

Metagenomic sequencing has the potential to transform microbial detection and characterization, but new tools are needed to improve its sensitivity. Here we present CATCH, a computational method to enhance nucleic acid capture for enrichment of diverse microbial taxa. CATCH designs optimal probe set...

Descripción completa

Detalles Bibliográficos
Autores principales: Metsky, Hayden C., Siddle, Katherine J., Gladden-Young, Adrianne, Qu, James, Yang, David K., Brehio, Patrick, Goldfarb, Andrew, Piantadosi, Anne, Wohl, Shirlee, Carter, Amber, Lin, Aaron E., Barnes, Kayla G., Tully, Damien C., Corleis, Bjӧrn, Hennigan, Scott, Barbosa-Lima, Giselle, Vieira, Yasmine R., Paul, Lauren M., Tan, Amanda L., Garcia, Kimberly F., Parham, Leda A., Odia, Ikponmwosa, Eromon, Philomena, Folarin, Onikepe A., Goba, Augustine, Simon-Lorière, Etienne, Hensley, Lisa, Balmaseda, Angel, Harris, Eva, Kwon, Douglas S., Allen, Todd M., Runstadler, Jonathan A., Smole, Sandra, Bozza, Fernando A., Souza, Thiago M. L., Isern, Sharon, Michael, Scott F., Lorenzana, Ivette, Gehrke, Lee, Bosch, Irene, Ebel, Gregory, Grant, Donald S., Happi, Christian T., Park, Daniel J., Gnirke, Andreas, Sabeti, Pardis C., Matranga, Christian B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6587591/
https://www.ncbi.nlm.nih.gov/pubmed/30718881
http://dx.doi.org/10.1038/s41587-018-0006-x
_version_ 1783429097400041472
author Metsky, Hayden C.
Siddle, Katherine J.
Gladden-Young, Adrianne
Qu, James
Yang, David K.
Brehio, Patrick
Goldfarb, Andrew
Piantadosi, Anne
Wohl, Shirlee
Carter, Amber
Lin, Aaron E.
Barnes, Kayla G.
Tully, Damien C.
Corleis, Bjӧrn
Hennigan, Scott
Barbosa-Lima, Giselle
Vieira, Yasmine R.
Paul, Lauren M.
Tan, Amanda L.
Garcia, Kimberly F.
Parham, Leda A.
Odia, Ikponmwosa
Eromon, Philomena
Folarin, Onikepe A.
Goba, Augustine
Simon-Lorière, Etienne
Hensley, Lisa
Balmaseda, Angel
Harris, Eva
Kwon, Douglas S.
Allen, Todd M.
Runstadler, Jonathan A.
Smole, Sandra
Bozza, Fernando A.
Souza, Thiago M. L.
Isern, Sharon
Michael, Scott F.
Lorenzana, Ivette
Gehrke, Lee
Bosch, Irene
Ebel, Gregory
Grant, Donald S.
Happi, Christian T.
Park, Daniel J.
Gnirke, Andreas
Sabeti, Pardis C.
Matranga, Christian B.
author_facet Metsky, Hayden C.
Siddle, Katherine J.
Gladden-Young, Adrianne
Qu, James
Yang, David K.
Brehio, Patrick
Goldfarb, Andrew
Piantadosi, Anne
Wohl, Shirlee
Carter, Amber
Lin, Aaron E.
Barnes, Kayla G.
Tully, Damien C.
Corleis, Bjӧrn
Hennigan, Scott
Barbosa-Lima, Giselle
Vieira, Yasmine R.
Paul, Lauren M.
Tan, Amanda L.
Garcia, Kimberly F.
Parham, Leda A.
Odia, Ikponmwosa
Eromon, Philomena
Folarin, Onikepe A.
Goba, Augustine
Simon-Lorière, Etienne
Hensley, Lisa
Balmaseda, Angel
Harris, Eva
Kwon, Douglas S.
Allen, Todd M.
Runstadler, Jonathan A.
Smole, Sandra
Bozza, Fernando A.
Souza, Thiago M. L.
Isern, Sharon
Michael, Scott F.
Lorenzana, Ivette
Gehrke, Lee
Bosch, Irene
Ebel, Gregory
Grant, Donald S.
Happi, Christian T.
Park, Daniel J.
Gnirke, Andreas
Sabeti, Pardis C.
Matranga, Christian B.
author_sort Metsky, Hayden C.
collection PubMed
description Metagenomic sequencing has the potential to transform microbial detection and characterization, but new tools are needed to improve its sensitivity. Here we present CATCH, a computational method to enhance nucleic acid capture for enrichment of diverse microbial taxa. CATCH designs optimal probe sets, with a specified number of oligonucleotides, that achieve full coverage of, and scale well with, known sequence diversity. We focus on applying CATCH to capture viral genomes in complex metagenomic samples. We design, synthesize, and validate multiple probe sets, including one that targets the whole genomes of the 356 viral species known to infect humans. Capture with these probe sets enriches unique viral content on average 18-fold, allowing us to assemble genomes that could not be recovered without enrichment, and accurately preserves within-sample diversity. We also use these probe sets to recover genomes from the 2018 Lassa fever outbreak in Nigeria and to improve detection of uncharacterized viral infections in human and mosquito samples. The results demonstrate that CATCH enables more sensitive and cost-effective metagenomic sequencing.
format Online
Article
Text
id pubmed-6587591
institution National Center for Biotechnology Information
language English
publishDate 2019
publisher Nature Publishing Group US
record_format MEDLINE/PubMed
spelling pubmed-65875912019-08-04 Capturing sequence diversity in metagenomes with comprehensive and scalable probe design Metsky, Hayden C. Siddle, Katherine J. Gladden-Young, Adrianne Qu, James Yang, David K. Brehio, Patrick Goldfarb, Andrew Piantadosi, Anne Wohl, Shirlee Carter, Amber Lin, Aaron E. Barnes, Kayla G. Tully, Damien C. Corleis, Bjӧrn Hennigan, Scott Barbosa-Lima, Giselle Vieira, Yasmine R. Paul, Lauren M. Tan, Amanda L. Garcia, Kimberly F. Parham, Leda A. Odia, Ikponmwosa Eromon, Philomena Folarin, Onikepe A. Goba, Augustine Simon-Lorière, Etienne Hensley, Lisa Balmaseda, Angel Harris, Eva Kwon, Douglas S. Allen, Todd M. Runstadler, Jonathan A. Smole, Sandra Bozza, Fernando A. Souza, Thiago M. L. Isern, Sharon Michael, Scott F. Lorenzana, Ivette Gehrke, Lee Bosch, Irene Ebel, Gregory Grant, Donald S. Happi, Christian T. Park, Daniel J. Gnirke, Andreas Sabeti, Pardis C. Matranga, Christian B. Nat Biotechnol Article Metagenomic sequencing has the potential to transform microbial detection and characterization, but new tools are needed to improve its sensitivity. Here we present CATCH, a computational method to enhance nucleic acid capture for enrichment of diverse microbial taxa. CATCH designs optimal probe sets, with a specified number of oligonucleotides, that achieve full coverage of, and scale well with, known sequence diversity. We focus on applying CATCH to capture viral genomes in complex metagenomic samples. We design, synthesize, and validate multiple probe sets, including one that targets the whole genomes of the 356 viral species known to infect humans. Capture with these probe sets enriches unique viral content on average 18-fold, allowing us to assemble genomes that could not be recovered without enrichment, and accurately preserves within-sample diversity. We also use these probe sets to recover genomes from the 2018 Lassa fever outbreak in Nigeria and to improve detection of uncharacterized viral infections in human and mosquito samples. The results demonstrate that CATCH enables more sensitive and cost-effective metagenomic sequencing. Nature Publishing Group US 2019-02-04 2019 /pmc/articles/PMC6587591/ /pubmed/30718881 http://dx.doi.org/10.1038/s41587-018-0006-x Text en © The Author(s), under exclusive licence to Springer Nature America, Inc. 2019 This article is made available via the PMC Open Access Subset for unrestricted research re-use and secondary analysis in any form or by any means with acknowledgement of the original source. These permissions are granted for the duration of the World Health Organization (WHO) declaration of COVID-19 as a global pandemic.
spellingShingle Article
Metsky, Hayden C.
Siddle, Katherine J.
Gladden-Young, Adrianne
Qu, James
Yang, David K.
Brehio, Patrick
Goldfarb, Andrew
Piantadosi, Anne
Wohl, Shirlee
Carter, Amber
Lin, Aaron E.
Barnes, Kayla G.
Tully, Damien C.
Corleis, Bjӧrn
Hennigan, Scott
Barbosa-Lima, Giselle
Vieira, Yasmine R.
Paul, Lauren M.
Tan, Amanda L.
Garcia, Kimberly F.
Parham, Leda A.
Odia, Ikponmwosa
Eromon, Philomena
Folarin, Onikepe A.
Goba, Augustine
Simon-Lorière, Etienne
Hensley, Lisa
Balmaseda, Angel
Harris, Eva
Kwon, Douglas S.
Allen, Todd M.
Runstadler, Jonathan A.
Smole, Sandra
Bozza, Fernando A.
Souza, Thiago M. L.
Isern, Sharon
Michael, Scott F.
Lorenzana, Ivette
Gehrke, Lee
Bosch, Irene
Ebel, Gregory
Grant, Donald S.
Happi, Christian T.
Park, Daniel J.
Gnirke, Andreas
Sabeti, Pardis C.
Matranga, Christian B.
Capturing sequence diversity in metagenomes with comprehensive and scalable probe design
title Capturing sequence diversity in metagenomes with comprehensive and scalable probe design
title_full Capturing sequence diversity in metagenomes with comprehensive and scalable probe design
title_fullStr Capturing sequence diversity in metagenomes with comprehensive and scalable probe design
title_full_unstemmed Capturing sequence diversity in metagenomes with comprehensive and scalable probe design
title_short Capturing sequence diversity in metagenomes with comprehensive and scalable probe design
title_sort capturing sequence diversity in metagenomes with comprehensive and scalable probe design
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6587591/
https://www.ncbi.nlm.nih.gov/pubmed/30718881
http://dx.doi.org/10.1038/s41587-018-0006-x
work_keys_str_mv AT metskyhaydenc capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT siddlekatherinej capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT gladdenyoungadrianne capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT qujames capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT yangdavidk capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT brehiopatrick capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT goldfarbandrew capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT piantadosianne capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT wohlshirlee capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT carteramber capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT linaarone capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT barneskaylag capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT tullydamienc capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT corleisbjörn capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT henniganscott capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT barbosalimagiselle capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT vieirayasminer capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT paullaurenm capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT tanamandal capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT garciakimberlyf capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT parhamledaa capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT odiaikponmwosa capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT eromonphilomena capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT folarinonikepea capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT gobaaugustine capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT simonloriereetienne capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT hensleylisa capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT balmasedaangel capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT harriseva capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT kwondouglass capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT allentoddm capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT runstadlerjonathana capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT smolesandra capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT bozzafernandoa capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT souzathiagoml capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT isernsharon capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT michaelscottf capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT lorenzanaivette capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT gehrkelee capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT boschirene capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT ebelgregory capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT grantdonalds capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT happichristiant capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT parkdanielj capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT gnirkeandreas capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT sabetipardisc capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign
AT matrangachristianb capturingsequencediversityinmetagenomeswithcomprehensiveandscalableprobedesign

Ejemplares similares