Background: The glycosome is a unique organelle found in Kinetoplastids known to compartmentalize vital metabolic pathways including glycolysis, β-fatty acid oxidation and purine salvage. Organelle biogenesis depends on a network of proteins for trafficking and translocation of nascent protein into the glycosome. The interaction of the proteins LdPEX14 and LdPEX5 at the glycosome membrane is crucial for targeting proteins into this organelle.
Methods: Deletion mutagenesis, pull-down, and bacterial two hybrid assay were used to map the LdPEX5 domain bound by LdPEX14. ELISA assays, ITC, intrinsic fluorescence and size exclusion chromatography to monitor binding and structural changes associated with the LdPEX5-LdPEX14 interaction.
Results and conclusions: The LdPEX14 binding site was mapped to residues 280-300 on LdPEX5, a region containing the pentapeptide motif W(293)AQEY(297). Deletion of this region abolished the LdPEX5-LdPEX14 interaction. Intrinsic fluorescence spectroscopy suggests that the stabilization of the LdPEX5-LdPEX14 complex is dependent on W293 docking into a hydrophobic pocket within the binding domain of ldpex14. Studies using a panel of synthetic peptides suggest a critical role for Y297 and to a lesser extent E296 in stabilizing the LdPEX5-LdPEX14 association.
General significance: We show that the LdPEX14 binding site is more promiscuous and in contrast to other eukaryotic systems will accommodate a more degenerate pentapeptide motif with the sequences WXXXW or FXXXF, findings which may be exploited for potential drug design.
Keywords: Glycosome; Leishmania; Peroxin 14; Peroxin 5; Protein–protein interaction.
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