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Více informací o knize Molecular Dynamics of Monomeric IAPP in Solution

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Doctoral Thesis / Dissertation from the year 2011 in the subject Physics - Biophysics, grade: 1,0, TU Dortmund, language: English, abstract: Conformational properties of the full-length human and rat islet amyloid polypeptide (amyloidogenic hIAPP and non-amyloidogenic rIAPP, respectively) were studied at physiological temperatures by MD simulations both for the cysteine and cystine moieties. By means of a temperature scan, it was found that 310K and 330K delimit the temperature at which the water percolation transition occurs, where the biological activity is highest, and were therefore chosen for observing the conformational properties of IAPP. At all temperatures studied, IAPP does not adopt a well-defined conformation and is essentially random-coil in solution, although transient helices appear forming along the peptide between residues 8 and 22, particularly in the reduced form. Above the water percolation transition, the reduced hIAPP moiety presents a considerably diminished helical content remaining unstructured, while the natural cystine moiety reaches a rather compact state, presenting a radius of gyration that is almost 10% smaller than what was measured for the other variants, and characterized by intrapeptide H-bonds that form many -bridges in the C-terminal region. This compact conformation presents a short end-to-end distance and seems to form through the formation of -sheet conformations in the C-terminal region with a minimization of the Tyr/Phe distances in a two-step mechanism. The non-aggregating rIAPP also presents transient helical conformations, with a particularly stable helix located in proximity of the C-terminal region, starting from residues L27 and P28. These MD simulations show that P28 in rIAPP influences the secondary structure of IAPP by stabilizing the peptide in helical conformations. When this helix is not present, the peptide presents bends or H-bonded turns at P28 that seem to inhibit the formation of the -bridges seen in hIAPP. Conversely, hIAPP is highly disordered in the C-terminal region, presenting transient isolated -strand conformations, particularly at higher temperatures and when the natural disulfide bond is present. Such conformational differences found in these simulations could be responsible for the different aggregational propensities of the two different homologues. The increased helicity in rIAPP induced by the serine-to-proline variation at residue 28 seems to be a plausible inhibitor of its aggregation. The specific position of P28 could be more relevant for inhibiting the aggregation than the intrinsic properties of proline alone.

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Zařazení knihy Knihy v angličtině Mathematics & science Physics

• Plný název: Molecular Dynamics of Monomeric IAPP in Solution
• Autor: Maximilian Andrews
• Jazyk: Angličtina
• Vazba: Brožovaná
• Počet stran: 172
• EAN: 9783656223832
• ISBN: 3656223831
• ID: 02000177
• Nakladatelství: Grin Publishing
• Hmotnost: 231 g
• Rozměry: 210 × 148 × 10 mm
• Datum vydání: 02. June 2013

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