Preferential amplification of repetitive DNA during whole genome sequencing library creation from historic samples

Bastiaan Star; Marianne H.S. Hansen; Morten Skage; Ian R. Bradbury; Jane A. Godiksen; Olav S. Kjesbu; Sissel Jentoft

doi:10.1080/20548923.2016.1160594

Preferential amplification of repetitive DNA during whole genome sequencing library creation from historic samples

Bastiaan Star, Marianne H.S. Hansen, Morten Skage, Ian R. Bradbury, Jane A. Godiksen, Olav S. Kjesbu, Sissel Jentoft

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

12 Citas (Scopus)

Resumen

Repetitive microsatellite DNA forms a universal component of eukaryote genomes and specific biochemical properties of such repeat regions may influence the outcome of laboratory protocols. The Atlantic cod (Gadus morhua) genome contains an order of magnitude more dinucleotide repeats than the majority of vertebrates, with over eight percent of its genome that can be classified as either AC or AG dinucleotide repeat. We find that the abundance of these repeats can be inflated in ancient DNA (aDNA) whole genome sequencing (WGS) data generated from this species, in particular in samples with a lower fragment length. This inflation is suppressed by a reduced number of amplification cycles and by the inclusion of manufactured dinucleotide repeat oligonucleotides during amplification. These data indicate that a biased amplification reaction leads to artificially high levels of AC and AG repeats. This process appears to be particularly efficient in Atlantic cod –likely due to its high genomic content of repeats with relatively simple sequence complexity. While the extend of such bias in other studies is unclear, we nonetheless urge caution when quantifying repeat content in aDNA WGS data, given that amplification bias can be difficult to detect if this process affects more complex repeat structures than dinucleotide repeats.

Idioma original	English
Páginas (desde-hasta)	36-45
Número de páginas	10
Publicación	Science and Technology of Archaeological Research
Volumen	2
N.º	1
DOI	https://doi.org/10.1080/20548923.2016.1160594
Estado	Published - ene. 1 2016
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
Computational intensive analyses were done on the Abel Cluster, owned by the UIO and the Norwegian metacenter for High Performance Computing (NOTUR), and operated by the Department for Research Computing at USIT, the UIO IT-department (http://www.hpc.uio.no/). We thank Dr. Thomas H.A. Haverkamp, Dr. Alexander J. Nederbragt and Dr. Sanne Boessenkool for comments and suggestions. This research was supported by the Norwegian Research Council under projects “Fisheries induced evolution in Atlantic cod investigated by ancient and historic samples (#203850/E40)” and “The Aqua Genome Project (#221734/O30)”. We have adhered to all local, national and international regulations and conventions, and we respected normal scientific ethical practices.

Funding Information:
We thank Dr. Jesse Dabney and Dr. Matthias Meyer for providing access to their sequencing data. Sequencing was performed by the Norwegian Sequencing Centre, a national technology platform hosted by the University of Oslo (UIO) and supported by the “Functional Genomics” and “Infrastructure” programs of the Research Council of Norway and the Southeastern Regional Health Authorities (www.sequencing.uio.no).

Publisher Copyright:
© 2016, © 2016 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

ASJC Scopus Subject Areas

Archaeology
Archaeology

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title = "Preferential amplification of repetitive DNA during whole genome sequencing library creation from historic samples",

abstract = "Repetitive microsatellite DNA forms a universal component of eukaryote genomes and specific biochemical properties of such repeat regions may influence the outcome of laboratory protocols. The Atlantic cod (Gadus morhua) genome contains an order of magnitude more dinucleotide repeats than the majority of vertebrates, with over eight percent of its genome that can be classified as either AC or AG dinucleotide repeat. We find that the abundance of these repeats can be inflated in ancient DNA (aDNA) whole genome sequencing (WGS) data generated from this species, in particular in samples with a lower fragment length. This inflation is suppressed by a reduced number of amplification cycles and by the inclusion of manufactured dinucleotide repeat oligonucleotides during amplification. These data indicate that a biased amplification reaction leads to artificially high levels of AC and AG repeats. This process appears to be particularly efficient in Atlantic cod –likely due to its high genomic content of repeats with relatively simple sequence complexity. While the extend of such bias in other studies is unclear, we nonetheless urge caution when quantifying repeat content in aDNA WGS data, given that amplification bias can be difficult to detect if this process affects more complex repeat structures than dinucleotide repeats.",

author = "Bastiaan Star and Hansen, {Marianne H.S.} and Morten Skage and Bradbury, {Ian R.} and Godiksen, {Jane A.} and Kjesbu, {Olav S.} and Sissel Jentoft",

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AU - Godiksen, Jane A.

AU - Kjesbu, Olav S.

AU - Jentoft, Sissel

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N2 - Repetitive microsatellite DNA forms a universal component of eukaryote genomes and specific biochemical properties of such repeat regions may influence the outcome of laboratory protocols. The Atlantic cod (Gadus morhua) genome contains an order of magnitude more dinucleotide repeats than the majority of vertebrates, with over eight percent of its genome that can be classified as either AC or AG dinucleotide repeat. We find that the abundance of these repeats can be inflated in ancient DNA (aDNA) whole genome sequencing (WGS) data generated from this species, in particular in samples with a lower fragment length. This inflation is suppressed by a reduced number of amplification cycles and by the inclusion of manufactured dinucleotide repeat oligonucleotides during amplification. These data indicate that a biased amplification reaction leads to artificially high levels of AC and AG repeats. This process appears to be particularly efficient in Atlantic cod –likely due to its high genomic content of repeats with relatively simple sequence complexity. While the extend of such bias in other studies is unclear, we nonetheless urge caution when quantifying repeat content in aDNA WGS data, given that amplification bias can be difficult to detect if this process affects more complex repeat structures than dinucleotide repeats.

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Preferential amplification of repetitive DNA during whole genome sequencing library creation from historic samples

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