Project description:In the rodent malaria parasite Plasmodium berghei, we found that an AP2 family transcription factor designated AP2-L plays a critical role in the development of the liver stage. Using DNA microarray analysis we showed that the expression of several genes, including those of parasitophorous vacuole membrane proteins, was significantly decreased in the early liver stage of AP2-L-depleted parasites.

Project description:In the rodent malaria parasite Plasmodium berghei, we found that an AP2 family transcription factor designated AP2-L plays a critical role in the development of the liver stage. Using DNA microarray analysis we showed that the expression of several genes, including those of parasitophorous vacuole membrane proteins, was significantly decreased in the early liver stage of AP2-L-depleted parasites. Gene expression of P. berghei sporozoites was compared between wild type and AP2-G KO parasites. Five biologically independent experiments were performed for each genotype.

Project description:In the rodent malaria parasite Plasmodium berghei, we found that an AP2 family transcription factor designated AP2-L plays a critical role in the development of the liver stage. Using DNA microarray analysis we showed that the expression of several genes, including those of parasitophorous vacuole membrane proteins, was significantly decreased in the early liver stage of AP2-L-depleted parasites. Gene expression of P. berghei liver stages was compared between wild type and AP2-L KO parasites. Liver stage parasites were cultured for 24h using HepG2 cells. Ten and seven biologically independent experiments were performed for wild type and AP2-L KO parasites, respectively.

Project description:AP2-FG is a female-specific transcription factor (TF) that plays an essential role in female gametocyte development. AP2-FG activates hundreds of genes by binding to a female-specific ten-base cis-acting element. Here, we report that in the rodent malaria parasite Plasmodium berghei, another female-specific TF designated as a partner of AP2-FG (PFG), controls gene expression in female gametocytes cooperatively with AP2-FG. Transcriptional mechanisms were analyzed in Plasmodium berghei female gametocytes.

Project description:AP2-FG is a female-specific transcription factor (TF) that plays an essential role in female gametocyte development. AP2-FG activates hundreds of genes by binding to a female-specific ten-base cis-acting element. Here, we report that in the rodent malaria parasite Plasmodium berghei, another female-specific TF designated as a partner of AP2-FG (PFG), controls gene expression in female gametocytes cooperatively with AP2-FG. Transcriptional mechanisms were analyzed in Plasmodium berghei female gametocytes.

Project description:Plasmodium berghei WT and ap2-o disruptant ookinete culture 12h Plasmodium berghei WT and ap2-o disruptant ookinete culture 12h

Project description:AP2-FG is a female-specific transcription factor (TF) that plays an essential role in female gametocyte development. AP2-FG activates hundreds of genes by binding to a female-specific ten-base cis-acting element. Here, we report that in the rodent malaria parasite Plasmodium berghei, another female-specific TF designated as a partner of AP2-FG (PFG), controls gene expression in female gametocytes cooperatively with AP2-FG.

Project description:Plasmodium berghei WT and ap2-o disruptant ookinete culture 12h

Project description:Plasmodium berghei transcriptomes of wild-type and ap2-z knockout parasites [ap2-z(-)] were analyzed at 6 hours post starting ookinete culture (hpoc).

Project description:Stage-specific transcription is a fundamental biological process in the lifecycle of the Plasmodium parasite. Proteins containing the AP2 DNA-binding domain are responsible for stage-specific transcriptional regulation, and belong to the only known family of transcription factors in Plasmodium parasites. A comprehensive identification of their target genes will advance our understanding of the molecular basis of stage-specific parasite development. In this study, we have used ChIP-seq technology to identify the target genes of the ookinete-specific AP2 transcription factor AP2-O.