Blocking human contaminant DNA during PCR allows amplification of rare mammal species from sedimentary ancient DNA
Blocking human contaminant DNA during PCR allows amplification of rare mammal species from sedimentary ancient DNA
Analyses of degraded DNA are typically hampered by contamination, especially when employing universal primers such as commonly used in environmental DNA studies. In addition to false-positive results, the amplification of contaminant DNA may cause false-negative results because of competition, or bias, during the PCR. In this study, we test the utility of human-specific blocking primers in mammal diversity analyses of ancient permafrost samples from Siberia. Using quantitative PCR (qPCR) on human and mammoth DNA, we first optimized the design and concentration of blocking primer in the PCR. Subsequently, 454 pyrosequencing of ancient permafrost samples amplified with and without the addition of blocking primer revealed that DNA sequences from a diversity of mammalian representatives of the Beringian megafauna were retrieved only when the blocking primer was added to the PCR. Notably, we observe the first retrieval of woolly rhinoceros (Coelodonta antiquitatis) DNA from ancient permafrost cores. In contrast, reactions without blocking primer resulted in complete dominance by human DNA sequences. These results demonstrate that in ancient environmental analyses, the PCR can be biased towards the amplification of contaminant sequences to such an extent that retrieval of the endogenous DNA is severely restricted. The application of blocking primers is a promising tool to avoid this bias and can greatly enhance the quantity and the diversity of the endogenous DNA sequences that are amplified.
blocking primer, contamination, environmental DNA, metabarcoding, PCR bias, pyrosequencing
1806-1815
Boessenkool, Sanne
6a24c3b2-94e2-4722-bd5a-33041ce5e6c9
Epp, Laura S.
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Haile, James
831f077c-daae-4aa1-b4b7-c4c76a2f6c00
Bellemain, Eva
9361d0fe-4c0f-49c7-9570-92924556a212
Edwards, Mary
4b6a3389-f3a4-4933-b8fd-acdfef72200e
Coissac, Eric
66ae82c0-bd94-4446-8d1b-af0d15732d0b
Willerslev, Eske
3815b419-7ba2-4827-a7a7-e97dd7118ee6
Brochmann, Christian
82cfe10a-4506-4340-a219-8ee809f52d5e
April 2012
Boessenkool, Sanne
6a24c3b2-94e2-4722-bd5a-33041ce5e6c9
Epp, Laura S.
d7c2dd0c-c6be-4dfa-a1a8-3f76187fcc6c
Haile, James
831f077c-daae-4aa1-b4b7-c4c76a2f6c00
Bellemain, Eva
9361d0fe-4c0f-49c7-9570-92924556a212
Edwards, Mary
4b6a3389-f3a4-4933-b8fd-acdfef72200e
Coissac, Eric
66ae82c0-bd94-4446-8d1b-af0d15732d0b
Willerslev, Eske
3815b419-7ba2-4827-a7a7-e97dd7118ee6
Brochmann, Christian
82cfe10a-4506-4340-a219-8ee809f52d5e
Boessenkool, Sanne, Epp, Laura S., Haile, James, Bellemain, Eva, Edwards, Mary, Coissac, Eric, Willerslev, Eske and Brochmann, Christian
(2012)
Blocking human contaminant DNA during PCR allows amplification of rare mammal species from sedimentary ancient DNA.
Molecular Ecology, 21 (8), .
(doi:10.1111/j.1365-294X.2011.05306.x).
Abstract
Analyses of degraded DNA are typically hampered by contamination, especially when employing universal primers such as commonly used in environmental DNA studies. In addition to false-positive results, the amplification of contaminant DNA may cause false-negative results because of competition, or bias, during the PCR. In this study, we test the utility of human-specific blocking primers in mammal diversity analyses of ancient permafrost samples from Siberia. Using quantitative PCR (qPCR) on human and mammoth DNA, we first optimized the design and concentration of blocking primer in the PCR. Subsequently, 454 pyrosequencing of ancient permafrost samples amplified with and without the addition of blocking primer revealed that DNA sequences from a diversity of mammalian representatives of the Beringian megafauna were retrieved only when the blocking primer was added to the PCR. Notably, we observe the first retrieval of woolly rhinoceros (Coelodonta antiquitatis) DNA from ancient permafrost cores. In contrast, reactions without blocking primer resulted in complete dominance by human DNA sequences. These results demonstrate that in ancient environmental analyses, the PCR can be biased towards the amplification of contaminant sequences to such an extent that retrieval of the endogenous DNA is severely restricted. The application of blocking primers is a promising tool to avoid this bias and can greatly enhance the quantity and the diversity of the endogenous DNA sequences that are amplified.
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e-pub ahead of print date: 12 October 2011
Published date: April 2012
Keywords:
blocking primer, contamination, environmental DNA, metabarcoding, PCR bias, pyrosequencing
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Local EPrints ID: 473701
URI: http://eprints.soton.ac.uk/id/eprint/473701
ISSN: 0962-1083
PURE UUID: bf58db04-bd07-4ee4-b8cc-abba5e2ba100
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Date deposited: 27 Jan 2023 17:52
Last modified: 17 Mar 2024 02:55
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Contributors
Author:
Sanne Boessenkool
Author:
Laura S. Epp
Author:
James Haile
Author:
Eva Bellemain
Author:
Eric Coissac
Author:
Eske Willerslev
Author:
Christian Brochmann
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