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      Role of the Plasmodium Export Element in Trafficking Parasite Proteins to the Infected Erythrocyte

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          Abstract

          The intracellular survival of Plasmodium falciparum within human erythrocytes is dependent on export of parasite proteins that remodel the host cell. Most exported proteins require a conserved motif (RxLxE/Q/D), termed the Plasmodium export element (PEXEL) or vacuolar targeting sequence (VTS), for targeting beyond the parasitophorous vacuole membrane and into the host cell; however, the precise role of this motif in export is poorly defined. We used transgenic P. falciparum expressing chimeric proteins to investigate the function of the PEXEL motif for export. The PEXEL constitutes a bifunctional export motif comprising a protease recognition sequence that is cleaved, in the endoplasmic reticulum, from proteins destined for export, in a PEXEL arginine- and leucine-dependent manner. Following processing, the remaining conserved PEXEL residue is required to direct the mature protein to the host cell. Furthermore, we demonstrate that N acetylation of proteins following N-terminal processing is a PEXEL-independent process that is insufficient for correct export to the host cell. This work defines the role of each residue in the PEXEL for export into the P. falciparum-infected erythrocyte.

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          The global distribution of clinical episodes of Plasmodium falciparum malaria.

          Robert W. Snow, Carlos Guerra, Abdisalan Noor (2005)
          Interest in mapping the global distribution of malaria is motivated by a need to define populations at risk for appropriate resource allocation and to provide a robust framework for evaluating its global economic impact. Comparison of older and more recent malaria maps shows how the disease has been geographically restricted, but it remains entrenched in poor areas of the world with climates suitable for transmission. Here we provide an empirical approach to estimating the number of clinical events caused by Plasmodium falciparum worldwide, by using a combination of epidemiological, geographical and demographic data. We estimate that there were 515 (range 300-660) million episodes of clinical P. falciparum malaria in 2002. These global estimates are up to 50% higher than those reported by the World Health Organization (WHO) and 200% higher for areas outside Africa, reflecting the WHO's reliance upon passive national reporting for these countries. Without an informed understanding of the cartography of malaria risk, the global extent of clinical disease caused by P. falciparum will continue to be underestimated.
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            Identification of prokaryotic and eukaryotic signal peptides and prediction of their cleavage sites.

            H. Nielsen, J Engelbrecht, S Brunak (1997)
            We have developed a new method for the identification of signal peptides and their cleavage sites based on neural networks trained on separate sets of prokaryotic and eukaryotic sequence. The method performs significantly better than previous prediction schemes and can easily be applied on genome-wide data sets. Discrimination between cleaved signal peptides and uncleaved N-terminal signal-anchor sequences is also possible, though with lower precision. Predictions can be made on a publicly available WWW server.
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              Cloning the P. falciparum gene encoding PfEMP1, a malarial variant antigen and adherence receptor on the surface of parasitized human erythrocytes.

              Dror Baruch, Britten Pasloske, Hardeep Singh (1995)
              Plasmodium falciparum-infected human erythrocytes evade host immunity by expression of a cell-surface variant antigen and receptors for adherence to endothelial cells. These properties have been ascribed to P. falciparum erythrocyte membrane protein 1 (PfEMP1), an antigenically diverse malarial protein of 200-350 kDa on the surface of parasitized erythrocytes (PEs). We describe the cloning of two related PfEMP1 genes from the Malayan Camp (MC) parasite strain. Antibodies generated against recombinant protein fragments of the genes were specific for MC strain PfEMP1 protein. These antibodies reacted only with the surface of MC strain PEs and blocked adherence of these cells to CD36 but without effect on adherence to thrombospondin. Multiple forms of the PfEMP1 gene are apparent in MC parasites. The molecular basis for antigenic variation in malaria and adherence of infected erythrocytes to host cells can now be pursued.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Traffic
                Journal ID (publisher-id): tra
                Title: Traffic (Copenhagen, Denmark)
                Publisher: Blackwell Publishing Ltd
                ISSN (Print): 1398-9219
                ISSN (Electronic): 1600-0854
                Publication date (Print): March 2009
                Publication date (Electronic preprint): 04 December 2009
                Publication date (Electronic): 07 January 2009
                Volume: 10
                Issue: 3
                Pages: 285-299
                Affiliations
                [1 ]The Walter and Eliza Hall Institute of Medical Research Parkville 3050, Melbourne, Australia
                [2 ]Joint Proteomics Laboratory, Ludwig Institute for Cancer Research and The Walter and Eliza Hall Institute of Medical Research Parkville, 3050, Melbourne, Australia
                Author notes
                * Corresponding author: Alan F. Cowman, cowman@ 123456wehi.edu.au
                Article
                DOI: 10.1111/j.1600-0854.2008.00864.x
                PMC ID: 2682620
                PubMed ID: 19055692
                SO-VID: 2732a419-bb5d-4a19-8897-a1ca885fcff5
                Copyright © © 2009 The Authors. Journal compilation © 2009 Blackwell Munksgaard
                License:

                Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.

                History
                Date received : 09 September 2008
                Date revision received : 28 November 2008
                Date accepted : 28 November 2008
                Categories
                Subject: Original Articles

                ScienceOpen disciplines: Sociology
                Keywords: trafficking,signal sequence,malaria,pexel,acetylation
                Data availability:
                ScienceOpen disciplines: Sociology
                Keywords: trafficking, signal sequence, malaria, pexel, acetylation

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