Abagero, B. R.; Dumetz, F.; Ford, C. T.; Tolosa, T.; Tesefay, D.; Lukas, B.; Shenkutie, T.; Popovici, J.; Yewhalaw, D.; Serre, D.; Lo, E.

Plasmodium vivax (Pv) infections are developmentally asynchronous and often polyclonal, complicating interpretation of bulk parasite transcriptomes. Here, we analyzed paired in vivo and short-term ex vivo transcriptomes from Ethiopian clinical isolates using stage deconvolution and PvMSP1 haplotyping. Ex vivo maturation modestly increased inferred schizont representation while largely preserving the proportion of trophozoites and gametocytes. After adjustment for parasite stage composition, in vivo and ex vivo transcriptomes remained globally similar, with no genes significantly differentially expressed, indicating the absence of major culture-induced transcriptional response. In contrast, short-term culture reduced multiplicity of infection, contracted within-host haplotype diversity, and non-randomly depleted specific haplotypes, consistent with a clonal bottleneck. In a subset of low-complexity infections, residual expression patterns were clustered by dominant haplotype, suggesting genotype-associated transcriptional heterogeneity independent of developmental stage. Together, these findings indicate that short-term ex vivo culture enriches late asexual stages and selectively filters clones rather than inducing a common transcriptional program. These results shows that ex vivo cultures are reliable way to study gene expression, especially for late stages. However, these needs explicitly model developmental composition and infection complexity when interpreting Pv transcriptomes from natural infections.