The best of both worlds: Combining lineage-specific and universal bait sets in target-enrichment hybridization reactions

Kasper P Hendriks^{1

2}, Terezie Mandáková³, Nikolai M Hay⁴, Elfy Ly¹, Alex Hooft van Huysduynen¹, Rubin Tamrakar⁵, Shawn K Thomas⁶, Oscar Toro-Núñez⁷, J Chris Pires⁶, Lachezar A Nikolov⁸, Marcus A Koch⁹, Michael D Windham⁴, Martin A Lysak³, Félix Forest¹⁰, Klaus Mummenhoff², William J Baker¹⁰, Frederic Lens^{1

11}, C Donovan Bailey⁵

Affiliations

¹ Naturalis Biodiversity Center Research Group Functional Traits P.O. Box 9517 2300RA Leiden The Netherlands.
² Department of Biology/Botany Osnabrück University Osnabrück 49076 Germany.
³ CEITEC Masaryk University Brno CZ-625 00 Czech Republic.
⁴ Department of Biology Duke University Durham North Carolina 27708 USA.
⁵ Department of Biology New Mexico State University Las Cruces New Mexico 88001 USA.
⁶ Division of Biological Sciences University of Missouri Columbia Missouri 65211 USA.
⁷ Departamento de Botánica Universidad de Concepción Concepción Chile.
⁸ Department of Molecular, Cell and Developmental Biology University of California Los Angeles Los Angeles California 90095 USA.
⁹ Centre for Organismal Studies COS, Biodiversity and Plant Systematics Heidelberg University 69120 Heidelberg Germany.
¹⁰ Royal Botanic Gardens, Kew Richmond Surrey TW9 3AE United Kingdom.
¹¹ Institute of Biology Leiden Plant Sciences Leiden University Sylviusweg 72 2333 BE Leiden The Netherlands.

PMID: 34336398
PMCID: PMC8312739
DOI: 10.1002/aps3.11438

The best of both worlds: Combining lineage-specific and universal bait sets in target-enrichment hybridization reactions

Kasper P Hendriks et al. Appl Plant Sci. 2021.

. 2021 Jul 7;9(7):10.1002/aps3.11438.

doi: 10.1002/aps3.11438. eCollection 2021 Jul.

Authors

Affiliations

¹ Naturalis Biodiversity Center Research Group Functional Traits P.O. Box 9517 2300RA Leiden The Netherlands.
² Department of Biology/Botany Osnabrück University Osnabrück 49076 Germany.
³ CEITEC Masaryk University Brno CZ-625 00 Czech Republic.
⁴ Department of Biology Duke University Durham North Carolina 27708 USA.
⁵ Department of Biology New Mexico State University Las Cruces New Mexico 88001 USA.
⁶ Division of Biological Sciences University of Missouri Columbia Missouri 65211 USA.
⁷ Departamento de Botánica Universidad de Concepción Concepción Chile.
⁸ Department of Molecular, Cell and Developmental Biology University of California Los Angeles Los Angeles California 90095 USA.
⁹ Centre for Organismal Studies COS, Biodiversity and Plant Systematics Heidelberg University 69120 Heidelberg Germany.
¹⁰ Royal Botanic Gardens, Kew Richmond Surrey TW9 3AE United Kingdom.
¹¹ Institute of Biology Leiden Plant Sciences Leiden University Sylviusweg 72 2333 BE Leiden The Netherlands.

PMID: 34336398
PMCID: PMC8312739
DOI: 10.1002/aps3.11438

Abstract

Premise: Researchers adopting target-enrichment approaches often struggle with the decision of whether to use universal or lineage-specific probe sets. To circumvent this quandary, we investigate the efficacy of a simultaneous enrichment by combining universal probes and lineage-specific probes in a single hybridization reaction, to benefit from the qualities of both probe sets with little added cost or effort.

Methods and results: Using 26 Brassicaceae libraries and standard enrichment protocols, we compare results from three independent data sets. A large average fraction of reads mapping to the Angiosperms353 (24-31%) and Brassicaceae (35-59%) targets resulted in a sizable reconstruction of loci for each target set (x̄ ≥ 70%).

Conclusions: High levels of enrichment and locus reconstruction for the two target sets demonstrate that the sampling of genomic regions can be easily extended through the combination of probe sets in single enrichment reactions. We hope that these findings will facilitate the production of expanded data sets that answer individual research questions and simultaneously allow wider applications by the research community as a whole.

Keywords: Brassicaceae; Hyb‐Seq; combining probes; enrichment; phylogenomics; phylogeny; population biology; target enrichment.

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References

1. Alexander, P. J. , Rajanikanth G., Bacon C., and Bailey C. D.. 2006. Rapid inexpensive recovery of high quality plant DNA using a reciprocating saw and silica‐based columns. Molecular Ecology Notes 7: 5–9.
1. Baker, W. , Barker A., Botigué L., Dodsworth S., Eiserhardt W., Gaya E., Kim J., et al. 2017. PAFTOL First Annual Report. Available from: https://www.kew.org/sites/default/files/2019‐07/PAFTOL%201st%20annual%20... [accessed 21 April 2021].
1. Baker, W. J. , Bailey P., Barber V., Barker A., Bellot S., Bishop D., Botigué L. R., et al. 2021. A comprehensive phylogenomic platform for exploring the angiosperm tree of life. Systematic Biology: syab035. 10.1093/sysbio/syab035 - DOI - PMC - PubMed
1. Bankevich, A. , Nurk S., Antipov D., Gurevich A. A., Dvorkin M., Kulikov A. S., Lesin V. M., et al. 2012. SPAdes: A new genome assembly algorithm and its applications to single‐cell sequencing. Journal of Computational Biology 19: 455–477. - PMC - PubMed
1. Bolger, A. M. , Lohse M., and Usadel B.. 2014. Trimmomatic: A flexible trimmer for Illumina sequence data. Bioinformatics 30: 2114–2120. - PMC - PubMed

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The best of both worlds: Combining lineage-specific and universal bait sets in target-enrichment hybridization reactions

Affiliations

The best of both worlds: Combining lineage-specific and universal bait sets in target-enrichment hybridization reactions

Authors

Affiliations

Abstract

References

LinkOut - more resources

Full Text Sources