Abstract

Dynamic control of gene expression is critical for blood stage development of malaria parasites. Here, we used multi-omic analyses to investigate transcriptional regulation by the chromatin-associated microrchidia protein, MORC, during asexual blood stage development of the human malaria parasite <i>Plasmodium falciparum</i>. We show that <i>Pf</i>MORC (PF3D7_1468100) interacts with a suite of nuclear proteins, including APETALA2 (ApiAP2) transcription factors (<i>Pf</i>AP2-G5, <i>Pf</i>AP2-O5, <i>Pf</i>AP2-I, PF3D7_0420300, PF3D7_0613800, PF3D7_1107800, and PF3D7_1239200), a DNA helicase DS60 (PF3D7_1227100), and other chromatin remodelers (<i>Pf</i>CHD1 and <i>Pf</i>EELM2). Transcriptomic analysis of <i>Pf</i>MORC^HA-glmS knockdown parasites revealed 163 differentially expressed genes belonging to hypervariable multigene families, along with upregulation of genes mostly involved in host cell invasion. In vivo genome-wide chromatin occupancy analysis during both trophozoite and schizont stages of development demonstrates that <i>Pf</i>MORC is recruited to repressed, multigene families, including the <i>var</i> genes in subtelomeric chromosomal regions. Collectively, we find that <i>Pf</i>MORC is found in chromatin complexes that play a role in the epigenetic control of asexual blood stage transcriptional regulation and chromatin organization.