Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites

Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites

<p>Abstract</p> <p>Background</p> <p>Classical and quantitative linkage analyses of genetic crosses have traditionally been used to map genes of interest, such as those conferring chloroquine or quinine resistance in malaria parasites. Next-generation sequencing technol...

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Main Authors: Hunt Paul, Martinelli Axel, Modrzynska Katarzyna, Borges Sofia, Creasey Alison, Rodrigues Louise, Beraldi Dario, Loewe Laurence, Fawcett Richard, Kumar Sujai, Thomson Marian, Trivedi Urmi, Otto Thomas D, Pain Arnab, Blaxter Mark, Cravo Pedro
Format: Article
Language:English
Published: BMC 2010-09-01
Series:BMC Genomics
Online Access:http://www.biomedcentral.com/1471-2164/11/499
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spelling doaj-7e0486a55cfc442abe8342c7ff92e0712020-11-24T21:43:50ZengBMCBMC Genomics1471-21642010-09-0111149910.1186/1471-2164-11-499Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasitesHunt PaulMartinelli AxelModrzynska KatarzynaBorges SofiaCreasey AlisonRodrigues LouiseBeraldi DarioLoewe LaurenceFawcett RichardKumar SujaiThomson MarianTrivedi UrmiOtto Thomas DPain ArnabBlaxter MarkCravo Pedro<p>Abstract</p> <p>Background</p> <p>Classical and quantitative linkage analyses of genetic crosses have traditionally been used to map genes of interest, such as those conferring chloroquine or quinine resistance in malaria parasites. Next-generation sequencing technologies now present the possibility of determining genome-wide genetic variation at single base-pair resolution. Here, we combine <it>in vivo </it>experimental evolution, a rapid genetic strategy and whole genome re-sequencing to identify the precise genetic basis of artemisinin resistance in a lineage of the rodent malaria parasite, <it>Plasmodium chabaudi</it>. Such genetic markers will further the investigation of resistance and its control in natural infections of the human malaria, <it>P. falciparum</it>.</p> <p>Results</p> <p>A lineage of isogenic <it>in vivo </it>drug-selected mutant <it>P. chabaudi </it>parasites was investigated. By measuring the artemisinin responses of these clones, the appearance of an <it>in vivo </it>artemisinin resistance phenotype within the lineage was defined. The underlying genetic locus was mapped to a region of chromosome 2 by Linkage Group Selection in two different genetic crosses. Whole-genome deep coverage short-read re-sequencing (Illumina<sup>® </sup>Solexa) defined the point mutations, insertions, deletions and copy-number variations arising in the lineage. Eight point mutations arise within the mutant lineage, only one of which appears on chromosome 2. This missense mutation arises contemporaneously with artemisinin resistance and maps to a gene encoding a de-ubiquitinating enzyme.</p> <p>Conclusions</p> <p>This integrated approach facilitates the rapid identification of mutations conferring selectable phenotypes, without prior knowledge of biological and molecular mechanisms. For malaria, this model can identify candidate genes before resistant parasites are commonly observed in natural human malaria populations.</p> http://www.biomedcentral.com/1471-2164/11/499
collection DOAJ
language English
format Article
sources DOAJ
author Hunt Paul
Martinelli Axel
Modrzynska Katarzyna
Borges Sofia
Creasey Alison
Rodrigues Louise
Beraldi Dario
Loewe Laurence
Fawcett Richard
Kumar Sujai
Thomson Marian
Trivedi Urmi
Otto Thomas D
Pain Arnab
Blaxter Mark
Cravo Pedro
spellingShingle Hunt Paul
Martinelli Axel
Modrzynska Katarzyna
Borges Sofia
Creasey Alison
Rodrigues Louise
Beraldi Dario
Loewe Laurence
Fawcett Richard
Kumar Sujai
Thomson Marian
Trivedi Urmi
Otto Thomas D
Pain Arnab
Blaxter Mark
Cravo Pedro
Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites
BMC Genomics
author_facet Hunt Paul
Martinelli Axel
Modrzynska Katarzyna
Borges Sofia
Creasey Alison
Rodrigues Louise
Beraldi Dario
Loewe Laurence
Fawcett Richard
Kumar Sujai
Thomson Marian
Trivedi Urmi
Otto Thomas D
Pain Arnab
Blaxter Mark
Cravo Pedro
author_sort Hunt Paul
title Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites
title_short Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites
title_full Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites
title_fullStr Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites
title_full_unstemmed Experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites
title_sort experimental evolution, genetic analysis and genome re-sequencing reveal the mutation conferring artemisinin resistance in an isogenic lineage of malaria parasites
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2010-09-01
description <p>Abstract</p> <p>Background</p> <p>Classical and quantitative linkage analyses of genetic crosses have traditionally been used to map genes of interest, such as those conferring chloroquine or quinine resistance in malaria parasites. Next-generation sequencing technologies now present the possibility of determining genome-wide genetic variation at single base-pair resolution. Here, we combine <it>in vivo </it>experimental evolution, a rapid genetic strategy and whole genome re-sequencing to identify the precise genetic basis of artemisinin resistance in a lineage of the rodent malaria parasite, <it>Plasmodium chabaudi</it>. Such genetic markers will further the investigation of resistance and its control in natural infections of the human malaria, <it>P. falciparum</it>.</p> <p>Results</p> <p>A lineage of isogenic <it>in vivo </it>drug-selected mutant <it>P. chabaudi </it>parasites was investigated. By measuring the artemisinin responses of these clones, the appearance of an <it>in vivo </it>artemisinin resistance phenotype within the lineage was defined. The underlying genetic locus was mapped to a region of chromosome 2 by Linkage Group Selection in two different genetic crosses. Whole-genome deep coverage short-read re-sequencing (Illumina<sup>® </sup>Solexa) defined the point mutations, insertions, deletions and copy-number variations arising in the lineage. Eight point mutations arise within the mutant lineage, only one of which appears on chromosome 2. This missense mutation arises contemporaneously with artemisinin resistance and maps to a gene encoding a de-ubiquitinating enzyme.</p> <p>Conclusions</p> <p>This integrated approach facilitates the rapid identification of mutations conferring selectable phenotypes, without prior knowledge of biological and molecular mechanisms. For malaria, this model can identify candidate genes before resistant parasites are commonly observed in natural human malaria populations.</p>
url http://www.biomedcentral.com/1471-2164/11/499
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