Protein Expression and Purification, cilt.202, 2023 (SCI-Expanded)
Recombinant expression and purification of proteins have become a staple of modern drug discovery as it enables more precise in vitro analyses of drug targets, which may help obtain biochemical and biophysical parameters of a known enzyme and even uncover unknown characteristics indicative of novel enzymatic functions. Such information is often necessary to prepare adequate screening assays and drug-discovery experiments in general. Toxoplasma gondii is an obligate protozoan parasite that is a member of the phylum Apicomplexa, can develop several neuro-degenerative symptoms and, in specific cases, certain death for human hosts. Its relict non-photosynthetic plastid, the apicoplast, harbours a unique de novo long-chain fatty acid synthesis pathway of a prokaryotic character, FASII. The FASII pathway shows plasticity and, is essential for many intracellular and membranal components, along with fatty acid uptake via salvaging from the host, therefore, its disruption causes parasite death. TgFabG, a FASII enzyme responsible for a single reduction step in the pathway, was recombinantly expressed, purified and biochemically and biophysically characterised in this study. The bioengineering hurdle of expressing the recombinant gene of a eukaryotic, signal peptide-containing protein in a prokaryotic system was overcome for the apicomplexan enzyme TgFabG, by truncating the N-terminal signal peptide. TgFabG was ultimately recombinantly produced in a plasmid expression vector from its 1131 base pair gene, purified as 260 and 272 amino acid proteins using a hexahistidine (6 × Histag) affinity chromatography and its biochemical (enzyme activity and kinetics) and biophysical characteristics were analysed in vitro.