Project description:The family of apicomplexa-specific proteins with DNA binding AP2 domains (ApiAP2s) includes sequence-specific transcription factors that are key regulators of development in malaria parasites. However, functions for the majority of ApiAP2 genes remain unknown. Here, a systematic knockout screen in Plasmodium berghei identifies ten ApiAP2 genes essential for mosquito transmission, of which four are critical for the formation of infectious ookinetes and three for sporogony. We describe unexpected non-essential functions for AP2-O and AP2-SP proteins in blood stages and identify AP2-G2 as a universal repressor active in both, asexual and sexual stages. Comparative transcriptomics across mutants and developmental stages reveals clusters of co-regulated genes with shared cis elements in their promoters, whose expression can be controlled positively or negatively by different ApiAP2 gene deletions. We propose that stage-specific interactions between ApiAP2 proteins on partly overlapping sets of target genes generate the complex transcriptional network that controls the Plasmodium life cycle.

Project description:During the progress through its complex life cycle, the malaria parasite requires strict control of gene expression but the mechanism controlling this process remain poorly understood and unexplored for therapeutic purposes. A group of the apicomplexa-specific putative transcription factors with AP2 DNA binding domain (apiAP2) has been identified as the major regulators of the parasite transcriptome at multiple stages. The targets and the role of the majority of the members of the family however are unknown.

Project description:Toxoplasma gondii is a unicellular eukaryote belonging to the Apicomplexa phylum. It is an obligate intracellular parasite of critical importance to primarily infected pregnant women and immunosuppressed patient. ApiAP2 are a family of conserved transcription factors (TF) that play an important role in regulating gene expression in apicomplexan parasites. Previous studies had revealed the ability of one of these TFs, TgAP2XI-5, to bind to transcriptionally active promoters of genes expressed during the S/M phase such as rhoptry and micronemes genes. However, expression of TgAP2XI-5 is constitutive during the tachyzoite cell cycle. To better understand how its function is regulated, we identified proteins interacting with TgAP2XI-5 including a cell cycle regulated ApiAP2 TFs, TgAP2X-5. The purpose of the study is to determine the impact of the absence of a TF (TgAP2X-5) on the wide expression profile of a Toxoplasma gondii strain.

Project description:Functional characterization of a surface antigen suppressing ApiAP2 in Eimeria tenella

Project description:Toxoplasma gondii is a unicellular eukaryote belonging to the Apicomplexa phylum. It is an obligate intracellular parasite of critical importance to primarily infected pregnant women and immunosuppressed patient. ApiAP2 are a family of conserved transcription factors (TF) that play an important role in regulating gene expression in apicomplexan parasites. Previous studies had revealed the ability of one of these TFs, TgAP2XI-5, to bind to transcriptionally active promoters of genes expressed during the S/M phase such as rhoptry and micronemes genes. However, expression of TgAP2XI-5 is constitutive during the tachyzoite cell cycle. To better understand how its function is regulated, we identified proteins interacting with TgAP2XI-5 including a cell cycle regulated ApiAP2 TFs, TgAP2X-5. The purpose of the study is to determine the impact of the absence of TgAP2X-5 on the binding of TgAP2XI-5 on its targets. Chromatin immunoprecipitation (ChIP) of TgAP2XI-5 together with chromatin in absence of TgAP2X-5 profiling by ChIP-on-chip analysis demonstrated that TgAP2X-5 co-acts with TgAP2XI-5 for its binding to DNA of certain promoter targets.

Project description:Avian coccidiosis is a major disease of poultry caused by the intestinal protozoa Eimeria. Aviagen line A and line B birds show differential susceptibility to Eimeria infection, with line B birds exhibiting higher lesion scores and mortality. The objective of this study was to examine differential intestinal gene expression between line A and B chicks in response to a challenge with Eimeria maxima. Following challenge with 1 x 10^4 oocysts/chick, greater than 40% of line A chicks had lesion scores of 0 to 1 (on 0 to 4 scale), similar to controls. In contrast, all line B challenged chicks at this same dose had lesion scores of 2 to 4.

Project description:Investigation of parasite (T. annulata) gene expression over the course of the life-cycle (sporozoite->macroschizont->merozoite->piroplasm). The study focused on the expression of known and putative transcription factors, in particular members of the ApiAP2 gene family. Up-stream motifs associated with stage-specifically expressed genes were identified during the course of the analysis. The experiment investigates Theileria annulata gene expression over a differentiation time-course - sporozoite through to piroplasm. 20 samples were analyzed - 4 x sporozoite (replicates), 3 x macroschizont (replicates), 3 x day 4, 3 x day 7, 3 x day 9 (replicates) and 4 x piroplasm (replicates)

Project description:This study investigated the ability of two novel adjuvant formulations, QCDC (Quil A/cholesterol/DDA/Carbopol) and QCDCR (QCDC/Bay R1005), in combination with a recombinant profilin vaccine, to modulate host protective immunity and to alter new gene expression during experimental avian coccidiosis.

Project description:Avian coccidiosis is a major disease of poultry caused by the intestinal protozoa Eimeria. Aviagen line A and line B birds show differential susceptibility to Eimeria infection, with line B birds exhibiting higher lesion scores and mortality. The objective of this study was to examine differential intestinal gene expression between line A and B chicks in response to a challenge with Eimeria maxima. Following challenge with 1 x 10^4 oocysts/chick, greater than 40% of line A chicks had lesion scores of 0 to 1 (on 0 to 4 scale), similar to controls. In contrast, all line B challenged chicks at this same dose had lesion scores of 2 to 4. Total RNA was extracted from the jejunum of control and challenged chicks from both lines A and B. Microarrays were used for detecting the expression-changed genes which responsed to the Eimeria challenge. Samples included: four control A chicks, two challenged A chicks with a lesion score of 1 (A/LS1), two challenged A chicks with lesion scores of 3 to 4 (A/LS3-4), four control B chicks, two challenged B chicks with lesion scores of 2 (B/LS2-3) and two challenged B chicks with lesion scores of 4 (B/LS4). The DNA microarrays were processed at the Virginia Bioinformatics Institute (Virginia Tech) core facility. The raw array data were normalized using GC-robust multiple array (GC-RMA) normalization. Analysis of variance was used for differentially expressed genes based on Welch ANOVA (P < 0.05) and probe set lists were ordered using the fold change analysis provided by GeneSpring software.

Project description:Eimeria tenella is a high pathogenic coccidian that causes avain coccidiosis. Both Nitromezuril(NZL) and Ethanamizuril(EZL) are novel triazine compounds with high anticoccidial activity, but the mechanisms of their action are still unclear. This study explored the response of E.tenella to NZL and EZL by the study of changes in protein composition of the second-generation merozoites using label free quantification proteomics.After drug treatment, the merozoites were analyzed by LC-MS/MS. The identified proteins were annotated and analyzed by Gene ontology, Kyoto Encyclopedia of Genes and Genomes pathway and Protein-protein interaction networks analysis.