A hybrid promoter carrying the GAL10 upstream activating sequence fused to the 5′ non-translated leader of the cytochrome-1 gene; K, Kozak sequence from the yeast PMR1 gene; hAQP1, coding part of human aquaporin 1 cDNA without a translational stop codon; GFP-His, termination codon deficient yeast enhanced GFP cDNA fused in-frame to eight histidine codons; 2 m, the yeast 2 micron origin of replication; leu2-d, a poorly expressed allele of the b-isopropylmalate dehydrogenase gene; bla, a ?lactamase gene; pMB1, 25033180 the pMB1 origin of replication; URA3, the orotinin-5′-P decarboxylase gene. doi:10.1371/journal.pone.0056431.gHigh Level Human Aquaporin Production in YeasthAQP1-GFP accumulates to a very high density at 15uCQuantification of the in-gel fluorescence data in Figure 3A showed that correctly folded hAQP1-GFP accumulated in yeast membranes at 15uC even up till 124 hours after induction (data not shown). In order to determine if the RE640 manufacturer membrane density of hAQP1-GFP order 47931-85-1 protein kept increasing we quantified the time dependent accumulation of hAQP1-GFP produced at 15uC in crude membranes. It can be seen from Figure 4 that the density continued to increase for at least up till two weeks after induction, and that the density reached almost 1,500 pmol hAQP1-GFP per mg crude membranes. This corresponds to 8.5 of the total membrane protein content. The intense green color emitted from the crude membrane preparation shown in Figure 4 visualizes the high membrane density of the hAQP1-GFP fusion protein.Figure 2. Time and temperature dependent accumulation of hAQP1-GFP in intact yeast cells. Briefly, yeast was inoculated in 2.5 liter shake flasks at room temperature to OD450 = 0.08 in 1 liter galactose-free expression medium (3 glycerol, 0.5 glucose minimal medium supplemented with all amino acids except leucine and isoleucine). At OD450 = 1.0 (time zero) half of the culture was transferred to 15uC and the other half to 30uC. Aquaporin expression was induced with 2 galactose 15 minutes later to assure that temperature equilibrium was obtained. Fluorescence was measured in intact yeast cells and normalized to cell number and the maximal fluorescence observed in the experiment. #, induction of hAQP1-GFP production during growth at 15uC; , induction of hAQP1-GFP production during growth at 30uC. Data is from a representative experiment. doi:10.1371/journal.pone.0056431.gRecombinant hAQP1-GFP is not N-glycosylated in S. cerevisiaeIn erythrocytes hAQP1is found in two forms; a non-glycosylated version and an extensively N-glycosylated form [13]. To analyze whether recombinant hAQP1-GFP-8His is N-glycosylated we separated crude membranes treated or not with Endo-glycosidase H by SDS-PAGE an analyzed the outcome by in-gel fluorescence. The data in Figure 5 show that EndoH treatment did not affect the electrophoretic mobility of hAQP1-GFP-His8 showing that the fusion protein was not N-glycosylated.NRecombinant hAQP1-GFP-8His is partly localized to the plasma membrane in yeastBioimaging of live yeast cells expressing hAQP1-GFP-8His was used to determine the sub cellular localization of the recombinant protein in yeast. Cells were additionally stained with DAPI to localize the nucleus and with FM4-64 that under the conditions used in the present protocol colors the vacuole as well as the plasma membrane. It can be seen from the micrographs in Figure 6 that a major part of hAQP1-GFP-8His was located non-uniformly in the plasma membrane; possibly indicating loca.A hybrid promoter carrying the GAL10 upstream activating sequence fused to the 5′ non-translated leader of the cytochrome-1 gene; K, Kozak sequence from the yeast PMR1 gene; hAQP1, coding part of human aquaporin 1 cDNA without a translational stop codon; GFP-His, termination codon deficient yeast enhanced GFP cDNA fused in-frame to eight histidine codons; 2 m, the yeast 2 micron origin of replication; leu2-d, a poorly expressed allele of the b-isopropylmalate dehydrogenase gene; bla, a ?lactamase gene; pMB1, 25033180 the pMB1 origin of replication; URA3, the orotinin-5′-P decarboxylase gene. doi:10.1371/journal.pone.0056431.gHigh Level Human Aquaporin Production in YeasthAQP1-GFP accumulates to a very high density at 15uCQuantification of the in-gel fluorescence data in Figure 3A showed that correctly folded hAQP1-GFP accumulated in yeast membranes at 15uC even up till 124 hours after induction (data not shown). In order to determine if the membrane density of hAQP1-GFP protein kept increasing we quantified the time dependent accumulation of hAQP1-GFP produced at 15uC in crude membranes. It can be seen from Figure 4 that the density continued to increase for at least up till two weeks after induction, and that the density reached almost 1,500 pmol hAQP1-GFP per mg crude membranes. This corresponds to 8.5 of the total membrane protein content. The intense green color emitted from the crude membrane preparation shown in Figure 4 visualizes the high membrane density of the hAQP1-GFP fusion protein.Figure 2. Time and temperature dependent accumulation of hAQP1-GFP in intact yeast cells. Briefly, yeast was inoculated in 2.5 liter shake flasks at room temperature to OD450 = 0.08 in 1 liter galactose-free expression medium (3 glycerol, 0.5 glucose minimal medium supplemented with all amino acids except leucine and isoleucine). At OD450 = 1.0 (time zero) half of the culture was transferred to 15uC and the other half to 30uC. Aquaporin expression was induced with 2 galactose 15 minutes later to assure that temperature equilibrium was obtained. Fluorescence was measured in intact yeast cells and normalized to cell number and the maximal fluorescence observed in the experiment. #, induction of hAQP1-GFP production during growth at 15uC; , induction of hAQP1-GFP production during growth at 30uC. Data is from a representative experiment. doi:10.1371/journal.pone.0056431.gRecombinant hAQP1-GFP is not N-glycosylated in S. cerevisiaeIn erythrocytes hAQP1is found in two forms; a non-glycosylated version and an extensively N-glycosylated form [13]. To analyze whether recombinant hAQP1-GFP-8His is N-glycosylated we separated crude membranes treated or not with Endo-glycosidase H by SDS-PAGE an analyzed the outcome by in-gel fluorescence. The data in Figure 5 show that EndoH treatment did not affect the electrophoretic mobility of hAQP1-GFP-His8 showing that the fusion protein was not N-glycosylated.NRecombinant hAQP1-GFP-8His is partly localized to the plasma membrane in yeastBioimaging of live yeast cells expressing hAQP1-GFP-8His was used to determine the sub cellular localization of the recombinant protein in yeast. Cells were additionally stained with DAPI to localize the nucleus and with FM4-64 that under the conditions used in the present protocol colors the vacuole as well as the plasma membrane. It can be seen from the micrographs in Figure 6 that a major part of hAQP1-GFP-8His was located non-uniformly in the plasma membrane; possibly indicating loca.
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