SpotMalaria Started 2015 SpotMalaria is a new project harnessing genomic technologies to monitor the global evolution of malaria parasites, delivering knowledge that will increase the efficiency of malaria elimination and eradication efforts.
Ag1000G Started 2014 Ag1000G is an international collaboration using whole genome deep sequencing to study genome variation and evolution in natural populations of Anopheles gambiae, the principal vector of Plasmodium falciparum malaria in Africa.
Pf3k Started 2014 Pf3k is an international collaboration using the latest sequencing technologies to provide a high-resolution view of natural variation in the malaria parasite Plasmodium falciparum.
P. falciparum Community Project Started 2010 The P. falciparum Community Project provides researchers with high-quality genotypes linked to a global resource characterising genetic variation in P. falciparum populations.
P. falciparum Genetic Crosses Started 2010 The P. falciparum Genetic Crosses project is generating high-quality data on genome sequence variation and sexual recombination for the parents and progeny of parasite crosses.
P. vivax Genome Variation Started 2010 The P. vivax Genome Variation project aims to understand genome diversity of this parasite that, because it can remain dormant in the liver for years, is particularly hard to eliminate using conventional malaria control measures.
Consortial Project 1 Started 2005 Consortial Project 1 investigates human genetic factors involved in resistance to severe malaria in order to better understand why, in regions where people are repeatedly exposed to malaria parasites, some people die from the infection while others survive.
Consortial Project 2 Started 2005 Consortial Project 2 studied the human genetic factors suspected to influence the antibody response to malaria parasite antigens, with a particular focus on antigens that are being strongly considered for vaccine development.
Consortial Project 3 Started 2005 Consortial Project 3 is using whole genome sequencing to identify genetic diversity in genes known to be associated with resistance to severe malaria, within and across malaria-endemic populations.
Consortial Project 4 Started 2005 Consortial Project 4 set out to find the specific genes responsible for malaria resistance within genomic regions identified in previous genetic linkage studies.