Project description:Recent studies of the Puf family of RNA-binding proteins revealed that besides their traditional roles in translational regulation of mRNAs, some Puf proteins are also involved in ribosome biogenesis by binding rRNA. In this study, we report the role of a Puf-like protein in Plasmodium falciparum (name as PfPuf3) and its ortholog PyPuf3 in Plasmodium yoelii in ribosome biogenesis. Secondary structure prediction suggested that the RNA-binding domain of Puf3 consists of 11 pumilio repeats, similar to human Puf-A/yeast Puf6, which involved in ribosome biogenesis. Neither pfpuf3 nor pypuf3 could be genetically disrupted, suggesting they may be essential for the intraerythrocytic developmental cycle (IDC). A time-course study of PfPuf3 protein indicated that PfPuf3 was expressed during the entire IDC, with peak expression in early trophozoites. Cellular fractionation of PfPuf3 revealed that it is preferentially partitioned to the nuclear than the cytoplasmic fractions, which is consistent with a nuclear localization of PfPuf3::GFP and PyPuf3::GFP as seen by immunofluorescence. Further, we found PfPuf3 co-localized with a well-known nucleolus maker, PfNop1, demonstrating that PfPuf3 is a nucleolar protein. This localization is in contrast to the cytoplasmic localization of PfPuf1 and PfPuf2, but matches the localization of human Puf-A and yeast Puf6. Affinity purification of an N-terminal PTP-tagged variant of PfPuf3 revealed an association with 32 proteins associated with the 60S ribosome, and an enrichment of 28S rRNA and ITS2. Taken together, these results demonstrate a nucleolar localization of PfPuf3 and suggest an essential function of PfPuf3 in ribosomal biogenesis.

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Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:The goal of our study is to characterize the global transcriptional resposne of P.falciparum to DNA damageing agents. Alongside, we stidied the epigenetic regulation of DNA damage resposne in parasite. Further, we studied the mecanism which underlined the ARMD (mutator) phenotype of P. falciparum. In order to elucidate the transcriptiona resposne to DNA damage, P. falciparum 3D7 parasites were treated with 4 perturbating agents for 6 hours. We mapped the global nucleosome occupancy for 3 most responsive histone modifications to DNA damage by chromatin immunoprecipitation coupled with DNA microarray (ChIP-on-chip). In order to identify the transcriptional similarities between artemesinin and MMS, we carried out 6 hours of artemesinin treatment in triplicates and compared with triplicate dataset of MMS.

Project description: Not available

Project description:The goal of our study is to characterize the global transcriptional resposne of P.falciparum to DNA damageing agents. Alongside, we stidied the epigenetic regulation of DNA damage resposne in parasite. Further, we studied the mecanism which underlined the ARMD (mutator) phenotype of P. falciparum.

Project description:The goal of our study is to characterize the global transcriptional resposne of P.falciparum to DNA damageing agents. Alongside, we stidied the epigenetic regulation of DNA damage resposne in parasite. Further, we studied the mecanism which underlined the ARMD (mutator) phenotype of P. falciparum. In order to elucidate the transcriptiona resposne to DNA damage, P. falciparum 3D7 parasites were treated with 4 perturbating agents for 6 hours. We mapped the global nucleosome occupancy for 3 most responsive histone modifications to DNA damage by chromatin immunoprecipitation coupled with DNA microarray (ChIP-on-chip). In order to identify the transcriptional similarities between artemesinin and MMS, we carried out 6 hours of artemesinin treatment in triplicates and compared with triplicate dataset of MMS.

Project description:Puf3 participates in ribosomal biogenesis in malaria parasites