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    題名: Replica-Exchange分子動態模擬法研究類澱粉胜?25-35;嵌入膜與折疊的行為 Folding and Membrane Insertion of Amyloid-β Peptide (25-35): A Replica-Exchange Molecular Dynamics Simulation Study
    作者: 曾勝煊;Sheng-Xuan Zeng
    貢獻者: 化學研究所
    關鍵詞: 分子動態模擬;類澱粉蛋白;阿茲海默症;企業社會責任;工作滿意度;工作績效;組織承諾;molecular dynamics simulation;amyloid beta;Alzheimer's disease;corporate social responsibility;job satisfaction;job performance;organizational commitment
    日期: 2009-10-15
    上傳時間: 2010-06-11 16:05:48 (UTC+8)
    出版者: 國立中央大學圖書館
    摘要: 本論文利用平行淬煉分子動態法 (Replica-Exchange molecular dynamics, REMD) 模擬類澱粉蛋白(Aβ)片段- Aβ25-35及其突變物N27A- Aβ25-35折疊及穿膜的機制。Aβ是阿茲海默症的主要病源,Aβ25-35保有和全長A???????類似的特性?具細胞毒性及amphipathicity (N?端具親水性,C?端具疏水性)。模擬中,Aβ25-35是以全原子的方式進行,水相及膜是以implicit model的方式進行,搭配REMD,以達到有效率的空間搜尋效果。 模擬結果顯示,Aβ25-35以疏水性的C?端插入膜的疏水區域,並形成穩定的α-helix構形 (Ala30- Leu34); N?端(Gly25 -Lys28)具極性,分佈在水相及頭基的區域,沒有明顯的二級結構; 結果和NMR決定的結構吻合。此外有一小部份的Aβ25-35越過了能量障礙深入膜的疏水核心區域,但並不是穩定結構。 N27A-Aβ25-35 是將Aβ25-35中極性的Asn取代成疏水性Ala,此一改變使得N27A-Aβ25-35毒性下降。模擬結果顯示,N27A-Aβ25-35 和Aβ25-35具有相似的構形及性質,但N27A-Aβ25-35 的C?端較Aβ25-35更深入膜的疏水區域,α-helix構形往N?端延長且較穩定。 膜變薄效應也會影響Aβ25-35及N27A-Aβ25-35的構形,當膜逐漸變薄時,Aβ25-35及N27A-Aβ25-35會更容易深入膜內,形成較長且穩定的α-helix構形。 The folding and membrane insertion of the Alzheimer’s amyloid-β(25-35) peptide and the mutate N27A-Aβ(25-35) peptide are explored using replica exchange molecular dynamics(REMD). All the peptide use all atom model and the solvent region (water and water-membrane region) are implicit solvent model This amphiphilic peptide (hydrophilicity in N-terminus , hydrophobicity in C-terminus) is a natural by-product of the Alzheimer’s amyloid-β(1-40) peptide and retains the toxicity of its full-length counterpart as the ability to aggregate into β-sheet rich fibrils. The simulation result show that Aβ(25-35) insert into the membrane and form the helix structure in C-terminus (Ala30-Leu34);and N-terminus(Gly25-Lys28) are disordered at the water region.Our simulation result agree with the NMR structure.A little portion of structures inser into membrane but the structures are unstable. N27A-Aβ(25-35) peptide,where Asn27 is repliced by Ala. The mutate peptide shows lower neurotoxicity than the wild type despite its increased hydrophobicity. The simulation result shows N27A-Aβ(25-35) peptide and Aβ(25-35) peptide have similar structure and property, but N27A-Aβ(25-35) peptide can insert into membrane more deeper than Aβ(25-35) and the helix structure form more complete than Aβ(25-35).The membrane thining effect also affect the structure of Aβ(25-35) and N27A-Aβ(25-35). When the membrane become thin,two kind of peptide can insert into membrane easily and form stable α-helix structure.
    顯示於類別:[化學研究所] 博碩士論文

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