Pan-genomic matching statistics for targeted nanopore sequencing

Pan-genomic matching statistics for targeted nanopore sequencing

Summary: Nanopore sequencing is an increasingly powerful tool for genomics. Recently, computational advances have allowed nanopores to sequence in a targeted fashion; as the sequencer emits data, software can analyze the data in real time and signal the sequencer to eject “nontarget” DNA molecules....

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Bibliographic Details
Main Authors: Omar Ahmed, Massimiliano Rossi, Sam Kovaka, Michael C. Schatz, Travis Gagie, Christina Boucher, Ben Langmead
Format: Article
Language:English
Published: Elsevier 2021-06-01
Series:iScience
Subjects:
Genomics
Biotechnology
Bioinformatics
Biocomputational Method
Online Access:http://www.sciencedirect.com/science/article/pii/S2589004221006647
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spelling doaj-2b75cd8df2e1468088412279819295cd2021-06-27T04:39:40ZengElsevieriScience2589-00422021-06-01246102696Pan-genomic matching statistics for targeted nanopore sequencingOmar Ahmed0Massimiliano Rossi1Sam Kovaka2Michael C. Schatz3Travis Gagie4Christina Boucher5Ben Langmead6Department of Computer Science, Johns Hopkins University, Baltimore, MD, USA; Corresponding authorDepartment of Computer and Information Science and Engineering, University of Florida, Gainesville, FL, USADepartment of Computer Science, Johns Hopkins University, Baltimore, MD, USADepartment of Computer Science, Johns Hopkins University, Baltimore, MD, USAFaculty of Computer Science, Dalhousie University, Halifax, NS, USADepartment of Computer and Information Science and Engineering, University of Florida, Gainesville, FL, USADepartment of Computer Science, Johns Hopkins University, Baltimore, MD, USA; Corresponding authorSummary: Nanopore sequencing is an increasingly powerful tool for genomics. Recently, computational advances have allowed nanopores to sequence in a targeted fashion; as the sequencer emits data, software can analyze the data in real time and signal the sequencer to eject “nontarget” DNA molecules. We present a novel method called SPUMONI, which enables rapid and accurate targeted sequencing using efficient pan-genome indexes. SPUMONI uses a compressed index to rapidly generate exact or approximate matching statistics in a streaming fashion. When used to target a specific strain in a mock community, SPUMONI has similar accuracy as minimap2 when both are run against an index containing many strains per species. However SPUMONI is 12 times faster than minimap2. SPUMONI's index and peak memory footprint are also 16 to 4 times smaller than those of minimap2, respectively. This could enable accurate targeted sequencing even when the targeted strains have not necessarily been sequenced or assembled previously.http://www.sciencedirect.com/science/article/pii/S2589004221006647GenomicsBiotechnologyBioinformaticsBiocomputational Method
collection DOAJ
language English
format Article
sources DOAJ
author Omar Ahmed
Massimiliano Rossi
Sam Kovaka
Michael C. Schatz
Travis Gagie
Christina Boucher
Ben Langmead
spellingShingle Omar Ahmed
Massimiliano Rossi
Sam Kovaka
Michael C. Schatz
Travis Gagie
Christina Boucher
Ben Langmead
Pan-genomic matching statistics for targeted nanopore sequencing
iScience
Genomics
Biotechnology
Bioinformatics
Biocomputational Method
author_facet Omar Ahmed
Massimiliano Rossi
Sam Kovaka
Michael C. Schatz
Travis Gagie
Christina Boucher
Ben Langmead
author_sort Omar Ahmed
title Pan-genomic matching statistics for targeted nanopore sequencing
title_short Pan-genomic matching statistics for targeted nanopore sequencing
title_full Pan-genomic matching statistics for targeted nanopore sequencing
title_fullStr Pan-genomic matching statistics for targeted nanopore sequencing
title_full_unstemmed Pan-genomic matching statistics for targeted nanopore sequencing
title_sort pan-genomic matching statistics for targeted nanopore sequencing
publisher Elsevier
series iScience
issn 2589-0042
publishDate 2021-06-01
description Summary: Nanopore sequencing is an increasingly powerful tool for genomics. Recently, computational advances have allowed nanopores to sequence in a targeted fashion; as the sequencer emits data, software can analyze the data in real time and signal the sequencer to eject “nontarget” DNA molecules. We present a novel method called SPUMONI, which enables rapid and accurate targeted sequencing using efficient pan-genome indexes. SPUMONI uses a compressed index to rapidly generate exact or approximate matching statistics in a streaming fashion. When used to target a specific strain in a mock community, SPUMONI has similar accuracy as minimap2 when both are run against an index containing many strains per species. However SPUMONI is 12 times faster than minimap2. SPUMONI's index and peak memory footprint are also 16 to 4 times smaller than those of minimap2, respectively. This could enable accurate targeted sequencing even when the targeted strains have not necessarily been sequenced or assembled previously.
topic Genomics
Biotechnology
Bioinformatics
Biocomputational Method
url http://www.sciencedirect.com/science/article/pii/S2589004221006647
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