Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent efforts to define the mitochondrial genome of malaria parasites have uncovered an unexpected complexity: there are two almost totally dissimilar organellar DNA molecules. lain Wilson, Malcolm Gardner, Jean Feagin and Donald Williamson discuss the surprising possibility that Plasmodium may have, in addition to the nuclear genome, two unrelated organellar genomes, one evidently mitochondrial and the other of unknown function.
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PMID:Have malaria parasites three genomes? 1546 98

The V(D)J recombination reaction in jawed vertebrates is catalyzed by the RAG1 and RAG2 proteins, which are believed to have emerged approximately 500 million years ago from transposon-encoded proteins. Yet no transposase sequence similar to RAG1 or RAG2 has been found. Here we show that the approximately 600-amino acid "core" region of RAG1 required for its catalytic activity is significantly similar to the transposase encoded by DNA transposons that belong to the Transib superfamily. This superfamily was discovered recently based on computational analysis of the fruit fly and African malaria mosquito genomes. Transib transposons also are present in the genomes of sea urchin, yellow fever mosquito, silkworm, dog hookworm, hydra, and soybean rust. We demonstrate that recombination signal sequences (RSSs) were derived from terminal inverted repeats of an ancient Transib transposon. Furthermore, the critical DDE catalytic triad of RAG1 is shared with the Transib transposase as part of conserved motifs. We also studied several divergent proteins encoded by the sea urchin and lancelet genomes that are 25%-30% identical to the RAG1 N-terminal domain and the RAG1 core. Our results provide the first direct evidence linking RAG1 and RSSs to a specific superfamily of DNA transposons and indicate that the V(D)J machinery evolved from transposons. We propose that only the RAG1 core was derived from the Transib transposase, whereas the N-terminal domain was assembled from separate proteins of unknown function that may still be active in sea urchin, lancelet, hydra, and starlet sea anemone. We also suggest that the RAG2 protein was not encoded by ancient Transib transposons but emerged in jawed vertebrates as a counterpart of RAG1 necessary for the V(D)J recombination reaction.
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PMID:RAG1 core and V(D)J recombination signal sequences were derived from Transib transposons. 1589 32

The gene encoding spermidine synthase was cloned from the human malaria parasite Plasmodium falciparum. Northern and Western blot analyses revealed a stage specific expression during the erythrocytic schizogony with the maximal amount of transcript and protein in mature trophozoites. Immunofluorescence assays (IFAs) suggest a cytoplasmatic localisation of the spermidine synthase in P. falciparum. The spermidine synthase polypeptide of 321 amino acids has a molecular mass of 36.6kDa and contains an N-terminal extension of unknown function that, similarly, is also found in certain plants but not in animal or bacterial orthologues. Omitting the first 29 amino acids, a truncated form of P. falciparum spermidine synthase has been recombinantly expressed in Escherichia coli. The enzyme catalyses the transfer of an aminopropyl group from decarboxylated S-adenosylmethionine (dcAdoMet) onto putrescine with Km values of 35 and 52microM, respectively. In contrast to mammalian spermidine synthases, spermidine can replace to some extent putrescine as the aminopropyl acceptor. Hence, P. falciparum spermidine synthase has the capacity to catalyse the formation of spermine that is found in small amounts in the erythrocytic stages of the parasite. Among the spermidine synthase inhibitors tested against P. falciparum spermidine synthase, trans-4-methylcyclohexylamine (4MCHA) was found to be most potent with a Ki value of 0.18microM. In contrast to the situation in mammals, where inhibition of spermidine synthase has no or only little effect on cell proliferation, 4MCHA was an efficient inhibitor of P. falciparum cell growth in vitro with an IC50 of 35microM, indicating that P. falciparum spermidine synthase represents a putative drug target.
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PMID:The spermidine synthase of the malaria parasite Plasmodium falciparum: molecular and biochemical characterisation of the polyamine synthesis enzyme. 1591 4

During their complex life cycle, malaria parasites adopt morphologically, biochemically and immunologically distinct forms. The intra-hepatic form is the least known, yet of established value in the induction of sterile immunity and as a target for chemoprophylaxis. Using Plasmodium yoelii as a model we present here a novel approach to the elucidation of the transcriptome of this poorly studied stage. Sequences from Plasmodium were obtained in 388 of the 3533 inserts (11%) isolated from liver stages cDNA obtained from optimized cultures with high yields. These corresponded to a total of 88 putative P. yoelii genes. The majority of the transcribed genes identified, code for predicted proteins of as yet unknown function. The RT-PCR analysis carried out for 29 of these genes, confirmed expression at the hepatic stage and provided evidence for complex patterns of genes transcription in the distinct stages found in the mosquito and vertebrate host. The results demonstrate the efficacy of the approach that can now be applied to further detailed analysis of the hepatic stage transcriptome of Plasmodium.
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PMID:Insights into the P. y. yoelii hepatic stage transcriptome reveal complex transcriptional patterns. 1591 5

Noncoding RNAs (ncRNAs) such as snRNAs, snoRNAs and microRNAs play important roles in transcription and translation control. These ncRNAs have yet to be discovered in the malarial parasite Plasmodium falciparum, an organism in which these basic biological processes are poorly understood. Inspired by a report by Klein et al., we initiated a bioinformatics screen to uncover several candidate ncRNAs from the parasite genome using two simple criteria: first, elevated GC content in the highly A-T rich intergenic regions of the P. falciparum genome and second, conservation of sequence homology between malaria parasite species. We show that all the annotated tRNAs can be successfully identified in our screen as well as several new candidates that show homology to snRNAs and snoRNAs, and ten candidate ncRNAs of unknown function. Three of the candidate snRNAs, a predicted selenocysteine tRNA and two candidates of unknown function are expressed in asexual stage parasites, further validating the screen. With these results, the biological processes underlying RNA-mediated regulation of transcription, translation and splicing can be studied in an important human pathogen.
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PMID:A screen for conserved sequences with biased base composition identifies noncoding RNAs in the A-T rich genome of Plasmodium falciparum. 1618 47

Salivary glands of blood-sucking arthropods contain a variety of compounds that prevent platelet and clotting functions and modify inflammatory and immunological reactions in the vertebrate host. In mosquitoes, only the adult female takes blood meals, while both sexes take sugar meals. With the recent description of the Anopheles gambiae genome, and with a set of approximately 3000 expressed sequence tags from a salivary gland cDNA library from adult female mosquitoes, we attempted a comprehensive description of the salivary transcriptome of this most important vector of malaria transmission. In addition to many transcripts associated with housekeeping functions, we found an active transposable element, a set of Wolbachia-like proteins, several transcription factors, including Forkhead, Hairy and doublesex, extracellular matrix components and 71 genes coding for putative secreted proteins. Fourteen of these 71 proteins had matching Edman degradation sequences obtained from SDS-PAGE experiments. Overall, 33 transcripts are reported for the first time as coding for salivary proteins. The tissue and sex specificity of these protein-coding transcripts were analyzed by RT-PCR and microarray experiments for insight into their possible function. Notably, two gene products appeared to be differentially spliced in the adult female salivary glands, whereas 13 contigs matched predicted intronic regions and may include additional alternatively spliced transcripts. Most An. gambiae salivary proteins represent novel protein families of unknown function, potentially coding for pharmacologically or microbiologically active substances. Supplemental data to this work can be found at http://www.ncbi.nlm.nih.gov/projects/omes/index.html#Ag2.
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PMID:An updated catalogue of salivary gland transcripts in the adult female mosquito, Anopheles gambiae. 1621 23

Many thousands of proteins encoded by the genome of Plasmodium falciparum, the causal organism of the deadliest form of human malaria, are of unknown function. It is of utmost importance that these proteins be characterized if we are to develop combative strategies against malaria based on the biology of the parasite. In an attempt to infer protein function on a genome-wide scale, we computationally modeled the P. falciparum interactome, elucidating local and global functional relationships between gene products. The resulting interaction network, reconstructed by integrating in silico and experimental functional genomics data within a Bayesian framework, covers approximately 68% of the parasite genome and provides functional inferences for more than 2000 uncharacterized proteins, based on their associations. Network reconstruction involved the use of a novel strategy, where we incorporated continuously updated, uniform reference priors in our Bayesian model. This method for generating interaction maps is thus also well suited for application to other genomes, where pre-existing interactome knowledge is sparse. Additionally, we superimposed this map on genomes of three apicomplexan pathogens--Plasmodium yoelii, Toxoplasma gondii, and Cryptosporidium parvum--describing relationships between these organisms based on retained functional linkages. This comparison provided a glimpse of the highly evolved nature of P. falciparum; for instance, a deficit of nearly 26% in terms of predicted interactions is observed against P. yoelii, because of missing ortholog partners in pairs of functionally linked proteins.
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PMID:Computational modeling of the Plasmodium falciparum interactome reveals protein function on a genome-wide scale. 1652 Apr 60

The plant-type ferredoxin/ferredoxin-NADP(+) reductase (Fd/FNR) redox system found in parasites of the phylum Apicomplexa has been proposed as a target for novel drugs used against life-threatening diseases such as malaria and toxoplasmosis. Like many proteins from these protists, apicomplexan FNRs are characterized by the presence of unique peptide insertions of variable length and yet unknown function. Since three-dimensional data are not available for any of the parasite FNRs, we used limited proteolysis to carry out an extensive study of the conformation of Toxoplasma gondii FNR. This led to identification of 11 peptide bonds susceptible to the action of four different proteases. Cleavage sites are clustered in four regions of the enzyme, which include two of its three species-specific insertions. Such regions are thus predicted to form flexible surface loops. The protein substrate Fd protected FNR against cleavage both at its N-terminal peptide and at its largest sequence insertion (28 residues). Deletion by protein engineering of the species-specific subdomain containing the latter insertion resulted in an enzyme form that, although catalytically active, displayed a 10-fold decreased affinity for Fd. In contrast, removal of the first 15 residues of the enzyme unexpectedly enhanced its interaction with Fd. Thus, two flexible polypeptide regions of T. gondii FNR are involved in Fd interaction but have opposite roles in modulating the binding affinity for the protein ligand. In this respect, T. gondii FNR differs from plant FNRs, where the N-terminal peptide contributes to the stabilization of their complex with Fd.
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PMID:Roles of the species-specific subdomain and the N-terminal peptide of Toxoplasma gondii ferredoxin-NADP+ reductase in ferredoxin binding. 1653 38

The Plasmodium sporozoite is infective for mosquito salivary glands and vertebrate host tissues. Although it is a key developmental stage of the malaria parasite, relatively few sporozoite surface or secreted proteins have been identified and characterized. Herein, we describe the molecular and cellular characterization of a novel surface molecule that is preferentially-expressed in salivary gland sporozoites as compared to oocyst and hemolymph sporozoites. This molecule, designated the sporozoite and erythrocytic stages (SES) protein (formerly known as Pg4), exhibits a spiral surface labeling pattern that spans over a known sporozoite surface antigen, the circumsporozoite protein, with only minor co-localization. SES consists of 551 amino acids encoding a putative 63.2kDa protein that has been shown to be expressed not only on particular sporozoite stages, but also during the asexual and gametocyte stages. This novel protein also has three domains of unknown function that are conserved in at least eight Plasmodium spp. that represent human, avian, non-human primate, and rodent malarias.
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PMID:A ubiquitous Plasmodium protein displays a unique surface labeling pattern in sporozoites. 1669 61

Plasmodium falciparum is the causative agent of severe human malaria, responsible for over 2 million deaths annually. Of the 5,300 polypeptides predicted to control the parasite life cycle in mosquitoes and humans, 60% are of unknown function. A major challenge of malaria postgenomic biology is to understand how the 5,300 predicted proteins coexist and interact to perform the essential tasks that define the complex life cycle of the parasite. One approach to assign function to these proteins is by identifying their physiological partners. Here we describe the use of tandem affinity purification (TAP) and mass spectrometry for identification of native protein interactions and purification of protein complexes in P. falciparum. Transgenic parasites were generated which express the translation elongation factor PfEF-1beta harboring a C-terminal PTP tag which consists of the protein C epitope, a tobacco etch virus protease cleavage site, and two protein A domains. Purification of PfEF-1beta-PTP from crude extracts followed by mass spectrometric analysis revealed, in addition to the tagged protein itself, the presence of the native PfEF-1beta, the G-protein PfEF-1alpha, and two new proteins that we named PfEF-1gamma and PfEF-1delta based on their homology to other eukaryotic gamma and delta translation elongation factor subunits. These data, which constitute the first application of TAP for purification of a protein complex under native conditions in P. falciparum, revealed that the translation elongation complex in this organism contains at least two subunits of PfEF-1beta. The success of this approach will set the stage for a systematic analysis of protein interactions in this important human pathogen.
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PMID:Purification of components of the translation elongation factor complex of Plasmodium falciparum by tandem affinity purification. 1730 63


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