Plasmodium vivax is the most geographically widespread cause of human malaria and is
responsible for the majority of cases outside of the African continent. While great progress …

Emerging antimalarial drug resistance may undermine current efforts to control and
eliminate Plasmodium vivax, the most geographically widespread yet neglected human …

The widespread distribution and relapsing nature of Plasmodium vivax infection present
major challenges for the elimination of malaria. To characterize the genetic diversity of this …

PCR amplicon deep sequencing continues to transform the investigation of genetic diversity
in viral, bacterial, and eukaryotic populations. In eukaryotic populations such as Plasmodium …

Background Amplicon deep sequencing permits sensitive detection of minority clones and
improves discriminatory power for genotyping multi-clone Plasmodium falciparum infections …

Intracellular single-celled parasites belonging to the large phylum Apicomplexa are amongst
the most prevalent and morbidity-causing pathogens worldwide. In this review, we highlight …

Abstract The Asia–Pacific region faces formidable challenges in achieving malaria
elimination by the proposed target in 2030. Molecular surveillance of Plasmodium parasites …

Ethiopia is one of the few African countries where Plasmodium vivax is co-endemic with P.
falciparum. Malaria transmission is seasonal and transmission intensity varies mainly by …

During the last decade, the vast omics field has revolutionized biological research,
especially the genomics, transcriptomics and proteomics branches, as technological tools …

Clinical trials monitoring malaria drug resistance require genotyping of recurrent
Plasmodium falciparum parasites to distinguish between treatment failure and new infection …