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An intrinsic oscillator drives the blood stage cycle of the malaria parasite <i>Plasmodium falciparum</i>

Lauren M. Smith, Francis C. Motta, Garima Chopra, J. Kathleen Moch, Robert R. Nerem, Bree Cummins, Kimberly Roche, Christina Kelliher, Adam R. Leman, John Harer, Tomáš Gedeon, Norman C. Waters, Steven B. Haase

2020Science92 citationsDOIOpen Access PDF

Abstract

Plasmodium 's inner clock Malarial fevers are notably regular, occurring when parasitized red blood cells rupture synchronously to release replicated parasites. It has long been speculated that the Plasmodium parasites that cause malaria must therefore have intrinsic circadian clocks to be able to synchronize like this. Two groups have now probed gene expression in experiments and models using data obtained during the developmental cycles of P. falciparum in vitro and in the mouse model of P. chabaudi malaria. Smith et al. discovered that four strains of P. falciparum have circadian and cell cycle oscillators, each with distinctive periodicities that can be experimentally manipulated. Rijo-Ferreira et al. found that gene expression in P. chabaudi was strikingly rhythmic, persisted during constant darkness and in infections of arrhythmic mice, and synchronized by entraining to the host's periodicity. Science , this issue p. 754 , p. 746

Topics & Concepts

Plasmodium falciparumParasite hostingCircadian rhythmBiologyMalariaCircadian clockPlasmodium (life cycle)Period (music)Cell cycleVirologyCell biologyImmunologyGeneticsCellNeurosciencePhysicsWorld Wide WebComputer scienceAcousticsCircadian rhythm and melatoninEvolution and Genetic DynamicsMalaria Research and Control
An intrinsic oscillator drives the blood stage cycle of the malaria parasite <i>Plasmodium falciparum</i> | Litcius