Abstract
Malaria-causing parasites proliferate within erythrocytes through schizogony, forming multinucleated stages before cellularization. Nuclear multiplication does not follow a strict geometric 2n progression and each proliferative cycle produces a heterogeneous number of progeny. Here, by tracking nuclei and DNA replication, we show that individual nuclei replicate their DNA at different times, despite residing in a shared cytoplasm. Extrapolating from experimental data using mathematical modeling, we demonstrate that a limiting factor must exist that slows down the nuclear multiplication rate. Indeed, our data show that temporally overlapping DNA replication events were significantly slower than partially or non-overlapping events. Our findings suggest an evolutionary pressure that selects for asynchronous DNA replication, balancing available resources with rapid pathogen proliferation.
Publisher
Cold Spring Harbor Laboratory
Cited by
5 articles.
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