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Role of adaptor proteins in MPR sortingMedigeshi Ramarao, Guruprasad. Unknown Date (has links) (PDF)
University, Diss., 2003--Göttingen.
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Mechanisms of intrachloroplast sorting of integral thylakoid membrane proteins /Karnauchov, Ivan. January 1998 (has links) (PDF)
Univ., Diss.--München, 1998.
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Protein sorting to the apical membrane of epithelial cellsSchuck, Sebastian. Unknown Date (has links) (PDF)
Techn. University, Diss., 2004--Dresden.
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Unterschiedliche zelluläre Sortierung zweier viraler K+-Kanäle die Bedeutung der zweiten Transmembrandomäne als Sortierungssignal /Balss, Jörg. Unknown Date (has links) (PDF)
Darmstadt, Techn. Universiẗat, Diss., 2007.
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Analysis of SNAREs, Arf1p and regulators in intracellular transportSchindler, Christina, January 2006 (has links)
Stuttgart, Univ., Diss., 2006.
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Protein sorting and cell surface polarity in yeast / Proteinsortierung und Zelloberflächenpolarität in HefeProszynski, Tomasz 14 October 2005 (has links) (PDF)
The studies presented here were focused on the understanding of the principles for protein sorting from the Golgi to the cell surface. As a marker protein we used Fus1p, a type I plasma membrane protein that is O-glycosylated on the extracellular domain and plays a role in cell fusion during yeast mating. Additionally, we analyzed mechanisms responsible for asymmetric distribution of Fus1p in mating cells. We demonstrated that the glycans attached to the protein act as a sorting determinant for protein transport to the cell surface. In cells lacking PMT4, encoding a mannosyltransferase involved in the initial step of O-glycosylation, Fus1p was not glycosylated and accumulated in late Golgi structures. A similar defect in exocytosis was observed when a Fus1p mutant lacking the O-glycosylated domain was expressed in wild-type cells, however, the cell surface delivery could be rescued if the 33 amino acid portion of the Fus1p ectodomain, containing 15 potentially glycosylated sites was added to the protein. It was previously well documented in epithelial cells that different types of protein glycosylation and association with lipid rafts play a role of determinants for protein delivery to the apical plasma membrane. However, otherwise the machinery responsible for cargo sorting to the apical membrane is poorly understood. Our finding that also in yeast, protein glycosylation can function as a sorting determinant provides a new possibility to investigate underlying mechanisms...
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Protein sorting and cell surface polarity in yeastProszynski, Tomasz 30 August 2005 (has links)
The studies presented here were focused on the understanding of the principles for protein sorting from the Golgi to the cell surface. As a marker protein we used Fus1p, a type I plasma membrane protein that is O-glycosylated on the extracellular domain and plays a role in cell fusion during yeast mating. Additionally, we analyzed mechanisms responsible for asymmetric distribution of Fus1p in mating cells. We demonstrated that the glycans attached to the protein act as a sorting determinant for protein transport to the cell surface. In cells lacking PMT4, encoding a mannosyltransferase involved in the initial step of O-glycosylation, Fus1p was not glycosylated and accumulated in late Golgi structures. A similar defect in exocytosis was observed when a Fus1p mutant lacking the O-glycosylated domain was expressed in wild-type cells, however, the cell surface delivery could be rescued if the 33 amino acid portion of the Fus1p ectodomain, containing 15 potentially glycosylated sites was added to the protein. It was previously well documented in epithelial cells that different types of protein glycosylation and association with lipid rafts play a role of determinants for protein delivery to the apical plasma membrane. However, otherwise the machinery responsible for cargo sorting to the apical membrane is poorly understood. Our finding that also in yeast, protein glycosylation can function as a sorting determinant provides a new possibility to investigate underlying mechanisms...
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