Septins are dynamic filament-forming proteins that are recognized as important components of the cytoskeleton and are involved in numerous functions inside the cells, such as cytokinesis, exocytosis, and ciliogenesis and even in defense against pathogenic bacteria. Despite being highly conserved in eukaryotes, there is scarce literature on the role of septins in organisms other than humans and yeast. Therefore, septins from Schistosoma mansoni represent an interesting model to study an unexplored branch of this protein family. Here we described standard protocols for recombinant production and initial characterization of septins from S. mansoni. Septins are notably difficult to purify, mostly due to their tendency to assemble into filaments. Therefore, specific protocols to stabilize these proteins have been developed. In this chapter, we systematically describe protocols to clone, express, and purify schistosome septins. We also describe the use of circular dichroism to assess the folding and stability of septins and use of chromatography to characterize their oligomeric state, bound guanine nucleotide, and GTP hydrolysis. We expect that these protocols may help researchers involved in the study of schistosome septins as well as assist to establish protocols for septins from other organisms.
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