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dc.contributor.authorÖberg, Fredrik
dc.date.accessioned2011-05-05T07:10:58Z
dc.date.available2011-05-05T07:10:58Z
dc.date.issued2011-05-05
dc.identifier.isbn978-91-628-8290-7
dc.identifier.urihttp://hdl.handle.net/2077/25277
dc.description.abstractAquaporins are water facilitating proteins embedded in the cellular membranes. Such channels have been identified in almost every living organism – including humans. They are vital molecules and their malfunction can lead to several severe disorders. An increased understanding of their structure, function and regulation is of utmost importance for developing current and future drugs. The first problem to overcome is to acquire the proteins in sufficient amounts to enable characterization. To achieve this, proteins are often produced in a host organism. One of the most successful hosts for recombinant overproduction is the yeast Pichia pastoris. Using this yeast we could obtain exceptional yield of aquaporin 1, whereas some others were below the threshold needed for successful subsequent characterization. In this process, we have established methods allowing fast and accurate determination of the initial production yield. Furthermore, we optimized the yield for low producing targets, enabling studies of proteins previously out of reach, exemplified with human aquaporin 4. Characterization has been performed on aquaporins obtained in sufficient quantities, and the functionality of aquaporin 1, 5 and 10 has been assessed. Furthermore, a glycosylation was found to stabilize the aquaporin 10 tetramer although only a minority of the monomers where modified. Moreover, we used protein crystallography to determine the three dimensional structure of a hAQP5 mutant, providing insight into regulation of the protein by trafficking. Taken together, these results provide insight into factors directing high production of eukaryotic membrane proteins. The subsequent characterization, including functional and structural determination, reveals new knowledge about aquaporin activity and regulation.sv
dc.language.isoengsv
dc.relation.haspartPaper I. Nyblom, M., Öberg, F., Lindkvist-Petersson, K., Hallgren, K., Findlay, H., Wikström, J., Karlsson, A., Hansson, Ö., Booth, P. J., Bill, R. M., Neutze, R. and Hedfalk, K. (2007) Exceptional overproduction of a functional human membrane protein. Protein Expr Purif, 56, 110-20. ::PMID::17869538sv
dc.relation.haspartPaper II. Hedfalk, K., Pettersson, N., Öberg, F., Hohmann, S. and Gordon, E. (2008) Production, characterization and crystallization of the Plasmodium falciparum aquaporin. Protein Expr Purif, 59, 69-78. ::PMID::18295508sv
dc.relation.haspartPaper III. Öberg, F., Ekvall, M., Nyblom, M., Backmark, A., Neutze, R. and Hedfalk, K. (2009) Insight into factors directing high production of eukaryotic membrane proteins; production of 13 human AQPs in Pichia pastoris. Mol Membr Biol, 1-13. ::PMID::19384754sv
dc.relation.haspartPaper IV. Öberg, F., Sjöhamn, J., Conner, M.T., Bill, R.M., Hedfalk, K. (2011) Improving recombinant eukaryotic membrane protein yields in Pichia pastoris: the importance of codon optimisation and clone selection. Submittedsv
dc.relation.haspartPaper V. Öberg, F., Sjöhamn, J., Fischer, G., Moberg, A., Pedersen, A., Neutze, R., Hedfalk, K. (2011) Glycosylation increases the thermostability of human aquaporin 10. Submittedsv
dc.relation.haspartPaper VI. Öberg, F., Sjöhamn, J., Hedfalk, K., Neutze, R., Törnroth-Horsefield, S. (2011) Crystal structure of the S156E-mutant of human aquaporin 5. Manuscript.sv
dc.titleAQUAPORINS: Production Optimization and Characterizationsv
dc.typeText
dc.type.svepDoctoral thesis
dc.gup.mailfredrik.oberg@chem.gu.sesv
dc.type.degreeDoctor of Philosophysv
dc.gup.originUniversity of Gothenburg. Faculty of Sciencesv
dc.gup.departmentDepartment of Chemistry ; Institutionen för kemisv
dc.gup.defenceplaceFredagen den 27 maj 2011 kl. 09.00 i KB, Institutionen för kemi, Kemigården 4, Göteborgsv
dc.gup.defencedate2011-05-27
dc.gup.dissdb-fakultetMNF


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