A newPlasmodium vivaxreference genome for South American isolates
Author:
De Meulenaere KatlijnORCID, Cuypers BartORCID, Gamboa DioniciaORCID, Laukens KrisORCID, Rosanas-Urgell AnnaORCID
Abstract
AbstractBackgroundPlasmodium vivaxis the second most important cause of human malaria worldwide, and accounts for the majority of malaria cases in South America. A high-quality reference genome exists for Papua Indonesia (PvP01) and Thailand (PvW1), but is lacking for South America. A reference genome specifically for South America would be beneficial though, asP. vivaxis a genetically diverse parasite with geographical clustering.ResultsThis study presents a new high-quality assembly of a South AmericanP. vivaxisolate, referred to as PvPAM. The genome was obtained from a low input patient sample from the Peruvian Amazon and sequenced using PacBio technology, resulting in a highly complete assembly with 6497 functional genes. Telomeric ends were present in 17 out of 28 chromosomal ends, and additional (sub)telomeric regions are present in 12 unassigned contigs. A comparison of multigene families between PvPAM and the PvP01 genome revealed remarkable variation invirgenes, and the presence of merozoite surface proteins (MSP) 3.6 and 3.7. Threedhfranddhpsdrug resistance associated mutations are present in PvPAM, similar to those found in other Peruvian isolates. Mapping of publicly available South American whole genome sequencing (WGS) data to PvPAM resulted in significantly fewer variants and truncated reads compared to the use of PvP01 or PvW1 as reference genomes. To minimize the number of core genome variants in non-South American samples, PvW1 is most suited for Southeast Asian isolates, both PvPAM and PvW1 are suited for South Asian isolates, and PvPAM is recommended for African isolates. Interestingly, non-South American samples still contained the least subtelomeric variants when mapped to PvPAM, indicating high quality of the PvPAM subtelomeric regions.ConclusionsOur findings show that the PvPAM reference genome more accurately represents South AmericanP. vivaxisolates in comparison to PvP01 and PvW1. In addition, PvPAM has a high level of completeness, and contains a similar number of annotated genes as PvP01 or PvW1. The PvPAM genome therefore will be a valuable resource to improve future genomic analyses onP. vivaxisolates from the South American continent.
Publisher
Cold Spring Harbor Laboratory
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