The apicoplast organelle of the malaria parasite, Plasmodium falciparum, is essential for parasite replication, though its cell cycle regulation remains poorly understood. We developed a dynamic live-imaging platform with analytical capabilities to track subcellular structures throughout the parasite’s 48-h intraerythrocytic life cycle. Our analysis revealed four distinct morphological stages in apicoplast development that correlate with nuclear replication. We identified a critical “Crown” morphology stage required for nucleus–apicoplast attachment, where the apicoplast stretches across multiple nuclei, in close association with centriolar plaques. We measured DNA ploidy and replication dynamics of the nuclear and apicoplast genomes. Inhibition of nuclear DNA replication blocked apicoplast biogenesis at early stages, demonstrating dependence on S-phase initiation. Conversely, inhibiting apicoplast genome replication minimally affected organelle development but disrupted the Crown stage, preventing proper organelle segregation into daughter cells. These findings establish a central pathway connecting apicoplast development to the cell cycle and an independent mechanism governing organelle inheritance.
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