PlasmoView: A Web-based Resource to Visualise Global Plasmodium falciparum Genomic Variation

M. D. Preston; S. A. Assefa; Harold Ocholla; C. J. Sutherland; S. Borrmann; A. Nzila; P. Michon; T. T. Hien; T. Bousema; C. J. Drakeley; I. Zongo; J.-B. Ouedraogo; A. A. Djimde; O. K. Doumbo; F. Nosten; R. M. Fairhurst; D. J. Conway; C. Roper; T. G. Clark

doi:10.1093/infdis/jit812

PlasmoView: A Web-based Resource to Visualise Global Plasmodium falciparum Genomic Variation

M. D. Preston, S. A. Assefa, Harold Ocholla, C. J. Sutherland, S. Borrmann, A. Nzila, P. Michon, T. T. Hien, T. Bousema, C. J. Drakeley, I. Zongo, J.-B. Ouedraogo, A. A. Djimde, O. K. Doumbo, F. Nosten, R. M. Fairhurst, D. J. Conway, C. Roper, T. G. Clark

Tropical Disease Biology

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

Malaria is a global public health challenge, with drug resistance a major barrier to disease control and elimination. To meet the urgent need for better treatments and vaccines, a deeper knowledge of Plasmodium biology and malaria epidemiology is required. An improved understanding of the genomic variation of malaria parasites, especially the most virulent Plasmodium falciparum (Pf) species, has the potential to yield new insights in these areas. High-throughput sequencing and genotyping is generating large amounts of genomic data across multiple parasite populations. The resulting ability to identify informative variants, particularly single-nucleotide polymorphisms (SNPs), will lead to the discovery of intra- and inter-population differences and thus enable the development of genetic barcodes for diagnostic assays and clinical studies. Knowledge of genetic variability underlying drug resistance and other differential phenotypes will also facilitate the identification of novel mutations and contribute to surveillance and stratified medicine applications. The PlasmoView interactive web-browsing tool enables the research community to visualise genomic variation and annotation (eg, biological function) in a geographic setting. The first release contains over 600 000 high-quality SNPs in 631 Pf isolates from laboratory strains and four malaria-endemic regions (West Africa, East Africa, Southeast Asia and Oceania).

Original language	English
Pages (from-to)	1808-1815
Number of pages	8
Journal	Journal of Infectious Diseases
Volume	209
Issue number	11
DOIs	https://doi.org/10.1093/infdis/jit812
Publication status	Published - 1 Jun 2014

Keywords

drug resistance
genomics
malaria
Plasmodium falciparum
vaccine targets
visualization

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/infdis/jit812Licence: CC BY

J Infect Dis 209 11 1808-1815Final published version, 1.29 MBLicence: CC BY

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Preston, M. D., Assefa, S. A., Ocholla, H., Sutherland, C. J., Borrmann, S., Nzila, A., Michon, P., Hien, T. T., Bousema, T., Drakeley, C. J., Zongo, I., Ouedraogo, J.-B., Djimde, A. A., Doumbo, O. K., Nosten, F., Fairhurst, R. M., Conway, D. J., Roper, C., & Clark, T. G. (2014). PlasmoView: A Web-based Resource to Visualise Global Plasmodium falciparum Genomic Variation. Journal of Infectious Diseases, 209(11), 1808-1815. https://doi.org/10.1093/infdis/jit812

@article{8baf85a10a834822bc74b453123c0bb6,

title = "PlasmoView: A Web-based Resource to Visualise Global Plasmodium falciparum Genomic Variation",

abstract = "Malaria is a global public health challenge, with drug resistance a major barrier to disease control and elimination. To meet the urgent need for better treatments and vaccines, a deeper knowledge of Plasmodium biology and malaria epidemiology is required. An improved understanding of the genomic variation of malaria parasites, especially the most virulent Plasmodium falciparum (Pf) species, has the potential to yield new insights in these areas. High-throughput sequencing and genotyping is generating large amounts of genomic data across multiple parasite populations. The resulting ability to identify informative variants, particularly single-nucleotide polymorphisms (SNPs), will lead to the discovery of intra- and inter-population differences and thus enable the development of genetic barcodes for diagnostic assays and clinical studies. Knowledge of genetic variability underlying drug resistance and other differential phenotypes will also facilitate the identification of novel mutations and contribute to surveillance and stratified medicine applications. The PlasmoView interactive web-browsing tool enables the research community to visualise genomic variation and annotation (eg, biological function) in a geographic setting. The first release contains over 600 000 high-quality SNPs in 631 Pf isolates from laboratory strains and four malaria-endemic regions (West Africa, East Africa, Southeast Asia and Oceania).",

keywords = "drug resistance, genomics, malaria, Plasmodium falciparum, vaccine targets, visualization",

author = "Preston, \{M. D.\} and Assefa, \{S. A.\} and Harold Ocholla and Sutherland, \{C. J.\} and S. Borrmann and A. Nzila and P. Michon and Hien, \{T. T.\} and T. Bousema and Drakeley, \{C. J.\} and I. Zongo and J.-B. Ouedraogo and Djimde, \{A. A.\} and Doumbo, \{O. K.\} and F. Nosten and Fairhurst, \{R. M.\} and Conway, \{D. J.\} and C. Roper and Clark, \{T. G.\}",

year = "2014",

month = jun,

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doi = "10.1093/infdis/jit812",

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Preston, MD, Assefa, SA, Ocholla, H, Sutherland, CJ, Borrmann, S, Nzila, A, Michon, P, Hien, TT, Bousema, T, Drakeley, CJ, Zongo, I, Ouedraogo, J-B, Djimde, AA, Doumbo, OK, Nosten, F, Fairhurst, RM, Conway, DJ, Roper, C & Clark, TG 2014, 'PlasmoView: A Web-based Resource to Visualise Global Plasmodium falciparum Genomic Variation', Journal of Infectious Diseases, vol. 209, no. 11, pp. 1808-1815. https://doi.org/10.1093/infdis/jit812

TY - JOUR

T1 - PlasmoView: A Web-based Resource to Visualise Global Plasmodium falciparum Genomic Variation

AU - Preston, M. D.

AU - Assefa, S. A.

AU - Ocholla, Harold

AU - Sutherland, C. J.

AU - Borrmann, S.

AU - Nzila, A.

AU - Michon, P.

AU - Hien, T. T.

AU - Bousema, T.

AU - Drakeley, C. J.

AU - Zongo, I.

AU - Ouedraogo, J.-B.

AU - Djimde, A. A.

AU - Doumbo, O. K.

AU - Nosten, F.

AU - Fairhurst, R. M.

AU - Conway, D. J.

AU - Roper, C.

AU - Clark, T. G.

PY - 2014/6/1

Y1 - 2014/6/1

N2 - Malaria is a global public health challenge, with drug resistance a major barrier to disease control and elimination. To meet the urgent need for better treatments and vaccines, a deeper knowledge of Plasmodium biology and malaria epidemiology is required. An improved understanding of the genomic variation of malaria parasites, especially the most virulent Plasmodium falciparum (Pf) species, has the potential to yield new insights in these areas. High-throughput sequencing and genotyping is generating large amounts of genomic data across multiple parasite populations. The resulting ability to identify informative variants, particularly single-nucleotide polymorphisms (SNPs), will lead to the discovery of intra- and inter-population differences and thus enable the development of genetic barcodes for diagnostic assays and clinical studies. Knowledge of genetic variability underlying drug resistance and other differential phenotypes will also facilitate the identification of novel mutations and contribute to surveillance and stratified medicine applications. The PlasmoView interactive web-browsing tool enables the research community to visualise genomic variation and annotation (eg, biological function) in a geographic setting. The first release contains over 600 000 high-quality SNPs in 631 Pf isolates from laboratory strains and four malaria-endemic regions (West Africa, East Africa, Southeast Asia and Oceania).

AB - Malaria is a global public health challenge, with drug resistance a major barrier to disease control and elimination. To meet the urgent need for better treatments and vaccines, a deeper knowledge of Plasmodium biology and malaria epidemiology is required. An improved understanding of the genomic variation of malaria parasites, especially the most virulent Plasmodium falciparum (Pf) species, has the potential to yield new insights in these areas. High-throughput sequencing and genotyping is generating large amounts of genomic data across multiple parasite populations. The resulting ability to identify informative variants, particularly single-nucleotide polymorphisms (SNPs), will lead to the discovery of intra- and inter-population differences and thus enable the development of genetic barcodes for diagnostic assays and clinical studies. Knowledge of genetic variability underlying drug resistance and other differential phenotypes will also facilitate the identification of novel mutations and contribute to surveillance and stratified medicine applications. The PlasmoView interactive web-browsing tool enables the research community to visualise genomic variation and annotation (eg, biological function) in a geographic setting. The first release contains over 600 000 high-quality SNPs in 631 Pf isolates from laboratory strains and four malaria-endemic regions (West Africa, East Africa, Southeast Asia and Oceania).

KW - drug resistance

KW - genomics

KW - malaria

KW - Plasmodium falciparum

KW - vaccine targets

KW - visualization

U2 - 10.1093/infdis/jit812

DO - 10.1093/infdis/jit812

M3 - Article

SN - 0022-1899

VL - 209

SP - 1808

EP - 1815

JO - Journal of Infectious Diseases

JF - Journal of Infectious Diseases

IS - 11

ER -

PlasmoView: A Web-based Resource to Visualise Global Plasmodium falciparum Genomic Variation

Abstract

Keywords

UN SDGs

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