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Short-chain dehydrogenases/reductases : structure, function and motifs of hydroxysteroid dehydrogenases /Filling, Charlotta, January 2002 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2002. / Härtill 6 uppsatser.
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Membrane protein topology : prediction, experimental mapping and genome-wide analysis /Nilsson, Johan, January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 5 uppsatser.
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Molecular mechanisms of transcriptional repression by the orphan receptor SHP /Båvner, Ann, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 5 uppsatser.
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Characterization of the Alzheimer's disease-associated clac protein /Söderberg, Linda, January 2005 (has links)
Diss. (sammanfattning) Stockholm : Karolinska institutet, 2005. / Härtill 4 uppsatser.
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Bayesian discovery of regulatory motifs using reversible jump Markov chain Monte Carlo /Li, Min, January 2006 (has links)
Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (p. 155-162).
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Mineralization of the metre-long biosilica structures of glass sponges is templated on hydroxylated collagenEhrlich, H., Deutzmann, R., Brunner, E., Cappellini, E., Koon, Hannah E.C., Solazzo, C., Yang, Y., Ashford, D., Thomas-Oates, J., Lubeck, M., Baessmann, C., Langrock, T., Hoffmann, R., Worheide, G., Reitner, J., Simon, P., Tsurkan, M., Ereskovsky, A.V., Kurek, D., Bazhenov, V.V., Hunoldt, S., Mertig, M., Vyalikh, D.V., Molodtsov, S.L., Kummer, K., Worch, H., Smetacek, V., Collins, M.J. January 2010 (has links)
No / The minerals involved in the formation of metazoan skeletons principally comprise glassy silica, calcium phosphate or carbonate. Because of their ancient heritage, glass sponges (Hexactinellida) may shed light on fundamental questions such as molecular evolution, the unique chemistry and formation of the first skeletal silica-based structures, and the origin of multicellular animals. We have studied anchoring spicules from the metre-long stalk of the glass rope sponge (Hyalonema sieboldi; Porifera, Class Hexactinellida), which are remarkable for their size, durability, flexibility and optical properties. Using slow-alkali etching of biosilica, we isolated the organic fraction, which was revealed to be dominated by a hydroxylated fibrillar collagen that contains an unusual [Gly-3Hyp-4Hyp] motif. We speculate that this motif is predisposed for silica precipitation, and provides a novel template for biosilicification in nature.
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Long-Range Side Chain-Main Chain Hydrogen Bonds: A Molecular Signature of the TIM Barrel Architecture: A DissertationYang, Xiaoyan 01 July 2009 (has links)
The hydrophobic effect and hydrogen bonding interactions have long been considered to be the dominant forces in protein folding. However, the contribution of hydrogen bonds to stabilizing proteins has been difficult to clarify. As the intramolecular hydrogen bonds are formed in place of hydrogen bonds with solvent during folding, measures of stability fail to give a significant change in free energy. Previous studies on hydrogen bonding interactions have shown that they are only marginally important.
Three long-range side chain-main chain hydrogen bonds have been found in the alpha subunit of tryptophan synthase (αTS), a (βα)8TIM barrel protein. These long-range noncovalent interactions connect either the N-terminus of one β-strand with the C-terminus of the succeeding and anti-parallel α-helix (F19-D46 and I97-D124) or the N-terminus of an α-helix with the C-terminus of the succeeding β-strand (A103-D130). By analogy, these interactions are designated as βα- or αβ-hairpin clamps. Surprisingly, the removal of any one of these clamp interactions, by replacement of the aspartic acid with alanine, results in significantly decreased thermodynamic stability for the native state and a substantial loss of secondary structure. When compared to several other side chain-side chain and short-range side chain-main chain interactions in αTS, these hairpin clamps clearly play a unique role in the structure and stability of αTS.
The generality of these observations for βα-hairpin clamps in TIM barrel proteins was tested by experimental analysis of the clamps in a pair of homologous indole-3-glycerol phosphate synthase (IGPS) TIM barrels of low sequence identity. The results suggest that only the subset of conserved βα-hairpin clamps with hydrogen bond length less than 2.80 Å make substantive contributions to stability and/or structure. Those clamps with longer hydrogen bonds make modest contributions to stability and structure, similar to other types of side chain-main chain or side chain-side chain hydrogen bonds. The role of these clamps in defining the structures of the super-family of TIM barrel proteins was examined by a survey of 71 TIM barrel proteins from the structural database. Conserved features of βα-hairpin clamps are consistent with a 4-fold symmetry, with a predominance of main chain amide hydrogen bond donors near the N-terminus of the odd-number β-strands and side chain hydrogen bond acceptors in the loops between the subsequent α-helices and even-numbered β-strands. In this configuration, the clamps provide an N-terminal cap to odd-number β- strands in the β-barrel.
Taken together, these findings suggest that βα-hairpin clamps are a vestigial signature of the fundamental βαβ building block for the (βα)8 motif and an integral part of the basic TIM barrel architecture. The relative paucity of βα-hairpin clamps remaining in TIM barrel structures and their variable contributions to stability imply that other determinants for structure and stability of the barrel have evolved to render a subset of the clamp interactions redundant. Distinct sequence preferences for the partners in the βα-hairpin clamps and the neighboring segments may be useful in enhancing algorithms for structure prediction and for engineering stability in TIM barrel proteins.
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Rapid endocytosis provides restricted somatic expression of a K+ channel in central neuronsCorrêa, Sonia A.L., Muller, Jurgen, Collingridge, G.L., Marrion, N.V. January 2009 (has links)
No / Trafficking motifs present in the intracellular regions of ion channels affect their subcellular location within neurons. The mechanisms that control trafficking to dendrites of central neurons have been identified, but it is not fully understood how channels are localized to the soma. We have now identified a motif within the calcium-activated potassium channel K(Ca)2.1 (SK1) that results in somatic localization. Transfection of hippocampal neurons with K(Ca)2.1 subunits causes expression of functional channels in only the soma and proximal processes. By contrast, expressed K(Ca)2.3 subunits are located throughout the processes of transfected neurons. Point mutation of K(Ca)2.1 within this novel motif to mimic a sequence present in the C-terminus of K(Ca)2.3 causes expression of K(Ca)2.1 subunits throughout the processes. We also demonstrate that blocking of clathrin-mediated endocytosis causes K(Ca)2.1 subunit expression to mimic that of the mutated subunit. The role of this novel motif is therefore not to directly target trafficking of the channel to subcellular compartments, but to regulate channel location by subjecting it to rapid clathrin-mediated endocytosis.
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