Embranes, to avoid underestimation of the membrane density of the GFP tagged protein. 15900046 In human tissue hAQP1 is localized to the plasma membrane. This localization seemed to be preserved in S. cerevisiae as the hAQP1-GFP fusion MedChemExpress 520-26-3 protein accumulated primarily in the plasma membrane in patches that may represent lipid rafts. Localization of the fusion protein to the plasma membrane is also a strong indication of a correct three dimensional structure as mal-folding would prevent it from leaving the ER and would prohibit it from becoming fluorescent.Finding a detergent that efficiently solubilizes the hAQP1-GFP8His fusion is essential for establishing an efficient purification protocol. Previous purification protocols for AQP1 from either S. cerevisiae [33] or P. pastoris [32] used b-OG for solubilization while purification from erythrocytes involved Triton-X 100 [13]. Our detergent screen revealed that CYMAL-5 was the most efficient yielding 50 solubilization of the fusion protein. The solubilization efficiency was slightly lower for DM, DDM and Fos-cholin 12, while OG and CHAPS were the most inefficient. We therefore selected CYMAL-5, which to our knowledge has not previously been used for solubilization and purification of hAQP1. Presence of the GFP tag allowed us to monitor and quantify purification efficiency. From the data in Figure 7 it can be seen that 62 
of the solubilized hAQP1-GFP that bound to the Nicolumn was eluted at an imidazol concentration of 250 mM. Ingel fluorescence followed by Coomassie staining showed that the protein eluted as a monomer, dimer, trimer and tetramer as seen for purification of the native protein from erythrocytes [48]. The Coomassie stain shows that solubilization in CYMAL-5 followed by Ni-affinity chromatography resulted 18055761 in a very pure preparation of recombinant hAQP1-GFP-8His fusion protein. Comparing theFigure 9. Affinity purification of hAQP1-GFP-8His. Crude membranes were solubilized in CYMAL-5 and purified by Ni-affinity chromatography as described in Materials and Methods. A, GFP fluorescence (red) was used to quantify the amount of hAQP1 in each fraction. The Imidazol profile used to wash and elute protein from the Ni-column is shown in blue. AU, arbitrary fluorescence units. B, (1) in-gel fluorescence after SDS-PAGE separation of the protein content of fraction 22; (2), Coomassie staining of the SDS-PAGE gel used for in-gel fluorescence in panel (1). Fraction 0, flowthrough; fractions 1- 3, wash with 10 mM Imidazole; fractions 4?1 wash with 30 mM Imidazole; fractions 12?0, wash with 100 mM Imidazole; fractions 21?5, wash with 250 mM Imidazole; fractions 26?0, wash with 500 mM Imidazole. doi:10.1371/journal.pone.0056431.gHigh Level Human Aquaporin Production in Yeastin-gel fluorescence with the Coomassie stain (Figure 7) also indicates that the purified hAQP1-GFP-8His fusion proteins are correctly folded since only bands detected by in-gel fluorescence were visible in the Coomassie stain. The slower migrating and non-fluorescent hAQP1-GFP-8His fusion proteins present in the western blot in Figure 3 were absent in 
the purified preparation. In get NT 157 contrast to Aquaporin-1 from erythrocytes we showed that the recombinantly produced protein in yeast was not N-glycosylated. In conclusion we have developed an expression system that substantially increases the membrane density of recombinant hAQP1.This expression system enables low cost production of large amounts of functional protein for structural and b.Embranes, to avoid underestimation of the membrane density of the GFP tagged protein. 15900046 In human tissue hAQP1 is localized to the plasma membrane. This localization seemed to be preserved in S. cerevisiae as the hAQP1-GFP fusion protein accumulated primarily in the plasma membrane in patches that may represent lipid rafts. Localization of the fusion protein to the plasma membrane is also a strong indication of a correct three dimensional structure as mal-folding would prevent it from leaving the ER and would prohibit it from becoming fluorescent.Finding a detergent that efficiently solubilizes the hAQP1-GFP8His fusion is essential for establishing an efficient purification protocol. Previous purification protocols for AQP1 from either S. cerevisiae [33] or P. pastoris [32] used b-OG for solubilization while purification from erythrocytes involved Triton-X 100 [13]. Our detergent screen revealed that CYMAL-5 was the most efficient yielding 50 solubilization of the fusion protein. The solubilization efficiency was slightly lower for DM, DDM and Fos-cholin 12, while OG and CHAPS were the most inefficient. We therefore selected CYMAL-5, which to our knowledge has not previously been used for solubilization and purification of hAQP1. Presence of the GFP tag allowed us to monitor and quantify purification efficiency. From the data in Figure 7 it can be seen that 62 of the solubilized hAQP1-GFP that bound to the Nicolumn was eluted at an imidazol concentration of 250 mM. Ingel fluorescence followed by Coomassie staining showed that the protein eluted as a monomer, dimer, trimer and tetramer as seen for purification of the native protein from erythrocytes [48]. The Coomassie stain shows that solubilization in CYMAL-5 followed by Ni-affinity chromatography resulted 18055761 in a very pure preparation of recombinant hAQP1-GFP-8His fusion protein. Comparing theFigure 9. Affinity purification of hAQP1-GFP-8His. Crude membranes were solubilized in CYMAL-5 and purified by Ni-affinity chromatography as described in Materials and Methods. A, GFP fluorescence (red) was used to quantify the amount of hAQP1 in each fraction. The Imidazol profile used to wash and elute protein from the Ni-column is shown in blue. AU, arbitrary fluorescence units. B, (1) in-gel fluorescence after SDS-PAGE separation of the protein content of fraction 22; (2), Coomassie staining of the SDS-PAGE gel used for in-gel fluorescence in panel (1). Fraction 0, flowthrough; fractions 1- 3, wash with 10 mM Imidazole; fractions 4?1 wash with 30 mM Imidazole; fractions 12?0, wash with 100 mM Imidazole; fractions 21?5, wash with 250 mM Imidazole; fractions 26?0, wash with 500 mM Imidazole. doi:10.1371/journal.pone.0056431.gHigh Level Human Aquaporin Production in Yeastin-gel fluorescence with the Coomassie stain (Figure 7) also indicates that the purified hAQP1-GFP-8His fusion proteins are correctly folded since only bands detected by in-gel fluorescence were visible in the Coomassie stain. The slower migrating and non-fluorescent hAQP1-GFP-8His fusion proteins present in the western blot in Figure 3 were absent in the purified preparation. In contrast to Aquaporin-1 from erythrocytes we showed that the recombinantly produced protein in yeast was not N-glycosylated. In conclusion we have developed an expression system that substantially increases the membrane density of recombinant hAQP1.This expression system enables low cost production of large amounts of functional protein for structural and b.
