DESCRIPTION (provided by applicant): The long-term goals of the proposed work are to understand the molecular mechanisms involved in transcriptional regulation in the malaria-causing parasite Plasmodium falciparum. During the malaria infection, the red blood cell stage of Plasmodium development is responsible for all of the clinical manifestations of this disease. This developmental stage is characterized by a cyclical 48-hour growth and replication phase that must be exquisitely regulated at the transcriptional level to maximize developmental efficiency and fidelity. The mechanisms used by the parasite to achieve this high level of transcriptional control remain unclear, although there is mounting evidence that transcription is strictly regulated in this organism. Our hypothesis is that a recently identified set of putative transcriptional regulators - the Apicomplexan AP2 (ApiAP2) proteins - are a major family of key transcriptional regulators during parasite development. The role of ApiAP2 proteins as transcriptional regulators will be analyzed using biochemistry, molecular biology and functional genomics tools. The first approach will determine the DNA recognition sequences for ApiAP2 proteins in vitro using two complementary methods. One method is a PCR-based selective enrichment of ligands by exponential enrichment (SELEX) using recombinant ApiAP2 proteins and a random library of putative DNA binding sites. Alternatively, a protein binding microarray (PBM) will be used to hybridize ApiAP2 proteins to a comprehensive collection of double stranded oligonucleotides. The second approach will be to establish the in vivo role of ApiAP2 proteins by 1) modulating transcriptional levels of these putative regulators and 2) generating knockout parasite lines. The effects of these genetic modifications will be assayed globally using DNA microarrays to detect changes in gene expression. Next, the binding of ApiAP2 proteins to DNA will be measured in vivo by chromatin immunoprecipitation with DNA microarray detection (ChIP-chip). These results will define the gene sets directly regulated by the ApiAP2 proteins and will be compared to the in vitro binding results in Aim 2 as well as to prior gene expression data to establish a model for stage-specific transcriptional regulation during parasite development. Finally, we plan to establish and experimentally verify a peptide- based signaling motif that will allow us to predict the active nuclear localization of Plasmodial proteins. The ApiAP2 proteins are the first large family of putative transcription factor domains identified in the genome of P. falciparum and hold great promise for antimalarial intervention since there are no mammalian counterparts to these proteins.
|Effective start/end date||2/15/09 → 1/31/15|
- National Institute of Allergy and Infectious Diseases: $185,501.00
- National Institute of Allergy and Infectious Diseases: $233,159.00
- National Institute of Allergy and Infectious Diseases: $390,606.00
- National Institute of Allergy and Infectious Diseases: $394,250.00
- National Institute of Allergy and Infectious Diseases: $162,449.00
- National Institute of Allergy and Infectious Diseases: $391,025.00
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