Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification

BACKGROUND: Translating genomic technologies into healthcare applications for the malaria parasite Plasmodium falciparum has been limited by the technical and logistical difficulties of obtaining high quality clinical samples from the field. Sampling by dried blood spot (DBS) finger-pricks can be pe...

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Autores principales: Oyola, Samuel O., Ariani, Cristina V., Hamilton, William L., Kekre, Mihir, Amenga-Etego, Lucas N., Ghansah, Anita, Rutledge, Gavin G., Redmond, Seth, Manske, Magnus, Jyothi, Dushyanth, Jacob, Chris G., Otto, Thomas D., Rockett, Kirk, Newbold, Chris I., Berriman, Matthew, Kwiatkowski, Dominic P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2016
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5175302/
https://www.ncbi.nlm.nih.gov/pubmed/27998271
http://dx.doi.org/10.1186/s12936-016-1641-7
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author Oyola, Samuel O.
Ariani, Cristina V.
Hamilton, William L.
Kekre, Mihir
Amenga-Etego, Lucas N.
Ghansah, Anita
Rutledge, Gavin G.
Redmond, Seth
Manske, Magnus
Jyothi, Dushyanth
Jacob, Chris G.
Otto, Thomas D.
Rockett, Kirk
Newbold, Chris I.
Berriman, Matthew
Kwiatkowski, Dominic P.
author_facet Oyola, Samuel O.
Ariani, Cristina V.
Hamilton, William L.
Kekre, Mihir
Amenga-Etego, Lucas N.
Ghansah, Anita
Rutledge, Gavin G.
Redmond, Seth
Manske, Magnus
Jyothi, Dushyanth
Jacob, Chris G.
Otto, Thomas D.
Rockett, Kirk
Newbold, Chris I.
Berriman, Matthew
Kwiatkowski, Dominic P.
author_sort Oyola, Samuel O.
collection PubMed
description BACKGROUND: Translating genomic technologies into healthcare applications for the malaria parasite Plasmodium falciparum has been limited by the technical and logistical difficulties of obtaining high quality clinical samples from the field. Sampling by dried blood spot (DBS) finger-pricks can be performed safely and efficiently with minimal resource and storage requirements compared with venous blood (VB). Here, the use of selective whole genome amplification (sWGA) to sequence the P. falciparum genome from clinical DBS samples was evaluated, and the results compared with current methods that use leucodepleted VB. METHODS: Parasite DNA with high (>95%) human DNA contamination was selectively amplified by Phi29 polymerase using short oligonucleotide probes of 8–12 mers as primers. These primers were selected on the basis of their differential frequency of binding the desired (P. falciparum DNA) and contaminating (human) genomes. RESULTS: Using sWGA method, clinical samples from 156 malaria patients, including 120 paired samples for head-to-head comparison of DBS and leucodepleted VB were sequenced. Greater than 18-fold enrichment of P. falciparum DNA was achieved from DBS extracts. The parasitaemia threshold to achieve >5× coverage for 50% of the genome was 0.03% (40 parasites per 200 white blood cells). Over 99% SNP concordance between VB and DBS samples was achieved after excluding missing calls. CONCLUSION: The sWGA methods described here provide a reliable and scalable way of generating P. falciparum genome sequence data from DBS samples. The current data indicate that it will be possible to get good quality sequence on most if not all drug resistance loci from the majority of symptomatic malaria patients. This technique overcomes a major limiting factor in P. falciparum genome sequencing from field samples, and paves the way for large-scale epidemiological applications. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12936-016-1641-7) contains supplementary material, which is available to authorized users.
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spelling pubmed-51753022016-12-28 Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification Oyola, Samuel O. Ariani, Cristina V. Hamilton, William L. Kekre, Mihir Amenga-Etego, Lucas N. Ghansah, Anita Rutledge, Gavin G. Redmond, Seth Manske, Magnus Jyothi, Dushyanth Jacob, Chris G. Otto, Thomas D. Rockett, Kirk Newbold, Chris I. Berriman, Matthew Kwiatkowski, Dominic P. Malar J Research BACKGROUND: Translating genomic technologies into healthcare applications for the malaria parasite Plasmodium falciparum has been limited by the technical and logistical difficulties of obtaining high quality clinical samples from the field. Sampling by dried blood spot (DBS) finger-pricks can be performed safely and efficiently with minimal resource and storage requirements compared with venous blood (VB). Here, the use of selective whole genome amplification (sWGA) to sequence the P. falciparum genome from clinical DBS samples was evaluated, and the results compared with current methods that use leucodepleted VB. METHODS: Parasite DNA with high (>95%) human DNA contamination was selectively amplified by Phi29 polymerase using short oligonucleotide probes of 8–12 mers as primers. These primers were selected on the basis of their differential frequency of binding the desired (P. falciparum DNA) and contaminating (human) genomes. RESULTS: Using sWGA method, clinical samples from 156 malaria patients, including 120 paired samples for head-to-head comparison of DBS and leucodepleted VB were sequenced. Greater than 18-fold enrichment of P. falciparum DNA was achieved from DBS extracts. The parasitaemia threshold to achieve >5× coverage for 50% of the genome was 0.03% (40 parasites per 200 white blood cells). Over 99% SNP concordance between VB and DBS samples was achieved after excluding missing calls. CONCLUSION: The sWGA methods described here provide a reliable and scalable way of generating P. falciparum genome sequence data from DBS samples. The current data indicate that it will be possible to get good quality sequence on most if not all drug resistance loci from the majority of symptomatic malaria patients. This technique overcomes a major limiting factor in P. falciparum genome sequencing from field samples, and paves the way for large-scale epidemiological applications. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12936-016-1641-7) contains supplementary material, which is available to authorized users. BioMed Central 2016-12-20 /pmc/articles/PMC5175302/ /pubmed/27998271 http://dx.doi.org/10.1186/s12936-016-1641-7 Text en © The Author(s) 2016 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
spellingShingle Research
Oyola, Samuel O.
Ariani, Cristina V.
Hamilton, William L.
Kekre, Mihir
Amenga-Etego, Lucas N.
Ghansah, Anita
Rutledge, Gavin G.
Redmond, Seth
Manske, Magnus
Jyothi, Dushyanth
Jacob, Chris G.
Otto, Thomas D.
Rockett, Kirk
Newbold, Chris I.
Berriman, Matthew
Kwiatkowski, Dominic P.
Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification
title Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification
title_full Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification
title_fullStr Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification
title_full_unstemmed Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification
title_short Whole genome sequencing of Plasmodium falciparum from dried blood spots using selective whole genome amplification
title_sort whole genome sequencing of plasmodium falciparum from dried blood spots using selective whole genome amplification
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5175302/
https://www.ncbi.nlm.nih.gov/pubmed/27998271
http://dx.doi.org/10.1186/s12936-016-1641-7
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