Background: Plasmodium species are difficult to study using proteomic technology because they contain large amounts of haemoglobin-derived products (HDP), generated by parasite breakdown of host haemoglobin. HDP are known to interfere with isoelectric focussing, a cornerstone of fractionation strategies for the identification of proteins by mass spectrometry. In addition to the challenge presented by this material, as in most proteomes, there exists in this parasite a considerable dynamic range between proteins of high and low abundance. The enzymes of the folate pathway, a proven and widely used drug target, are included in the latter class. Methods: This report describes a work-flow utilizing a parasite-specific extraction protocol that minimizes release of HDP into the lysate, followed by in-solution based OFFGEL™ electrophoresis at the protein level, trypsin digestion and mass spectrometric analysis. Results: It is demonstrated that, by removing HDP from parasite lysates, OFFGEL™-mediated protein separation is able to deliver reduced complexity protein fractions. Importantly, proteins with similar and predictable physical properties are sharply focussed within such fractions. Conclusions: By following this novel workflow, data have been obtained which allow the unequivocal experimental identification by mass spectrometry of four of the six proteins involved in folate biosynthesis and recycling. © 2010 O'Cualain et al; licensee BioMed Central Ltd.
CITATION STYLE
O’Cualain, R. D. M., Hyde, J. E., & Sims, P. F. G. (2010). A protein-centric approach for the identification of folate enzymes from the malarial parasite, Plasmodium falciparum, using OFFGELTM solution-based isoelectric focussing and mass spectrometry. Malaria Journal, 9(1). https://doi.org/10.1186/1475-2875-9-286
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