類澱粉胜?聚集行為之電腦模擬; Aggregation and Membrane Interactions of Amyloid b Peptides Fragments (16-22 & 25-35) in Water-Membrane Environment Studied by Molecular Dynamics Simulations

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题名:	類澱粉胜?聚集行為之電腦模擬;Aggregation and Membrane Interactions of Amyloid b Peptides Fragments (16-22 & 25-35) in Water-Membrane Environment Studied by Molecular Dynamics Simulations
作者:	張育維;Yu-Wei Chang
贡献者:	化學工程與材料工程研究所
关键词:	類澱粉胜肽;molecular dynamics simulations;beta amyloid
日期:	2008-07-18
上传时间:	2009-09-21 12:29:19 (UTC+8)
出版者:	國立中央大學圖書館
摘要:	本論文利用最新發展的implicit solvent/membrane模型，配合定溫分子動態法及變溫replica exchange分子動態法模擬Ab16-22及Ab25-35胜肽鏈在水相中及有膜存在的環境下，其聚集及吸附的機制，以期了解全長Ab1-40/42的細胞毒性機制。此ㄧ方法可改善全原子模型計算時間不足的問題，進而使模擬的時間尺度更能逼近實驗的條件，且藉由從原子及動態的時間角度出發，可彌補實驗上不易觀察到的現象。由於Ab16-22(較具疏水性)與Ab25-35(兩性性質)基本性質不同，表現出的聚集及吸附行為也不同：Ab16-22胜肽鏈傾向於在水相中先行聚集而成寡聚物，而後再逐漸吸附到膜面上；然而，Ab25-35胜肽鏈傾向以單體的形態先吸附到膜面上，吸附上膜面的單體在膜面上互相聚集形成寡聚物；在水相中，Ab16-22胜肽鏈傾向形成b-sheet二級結構，Ab25-35胜肽鏈則傾向形成helix結構；在膜面上的結構與水相中不同，Ab16-22胜肽鏈在膜面上傾向形成helix，而Ab25-35胜肽鏈則表現出較多樣的結構形態，包含形成在C端的helix結構。雖然Ab16-22及Ab25-35兩者的聚集及吸附表現不同，但其聚集及吸附的主要交互作用力卻相似：兩者聚集主要是以疏水作用力為主，而寡聚物吸附到膜面上則是以靜電作用力為主。本研究從原子尺度了解Ab的聚集及吸附的機制，可提供我們一個理論基礎，以合理設計相關的治療藥物，以抑制Ab細胞毒性的產生。 This study employed the constant temperature molecular dynamics and replica-exchange molecular dynamics in terms of the recently developed implicit solvent and membrane models to simulate the aggregation and adsorption mechanisms of the Ab16-22 and Ab25-35 peptide in the present of membrane. This study is motivated to understand the toxic mechanism of full-length Ab1-40/1-42. Our method improves the time-consuming problem of all-atom simulations and will approach the experimental time scale. In views of atomic and fast time scales, our results complement the intermediate processes which were difficult to be observed experimentally. Due to the different properties of Ab16-22 and Ab25-35 peptides in which they are hydrophobic and amphiphilic, respectively, their mechanisms of aggregation and adsorption are also different: Ab16-22 peptides are prone to aggregate in water phase, and then to be adsorbed to membrane; In contrast, Ab25-35 peptides trends to be adsorbed on membrane in the monomer form, then, the monomers are to be aggregated on membrane. In water phase, Ab16-22 peptides prefer to form b-sheet secondary structure and the Ab25-35 peptides form helix secondary structure. In membrane phase, Ab16-22 peptides prefer to form helix secondary structure. The secondary structures of Ab25-35 peptides in membrane are more diverse. If the helix secondary structure of Ab25-35 peptides is formed, it exists in the C-terminal. Although the aggregation and adsorption mechanisms are different for Ab16-22 and Ab25-35 peptides, they shares similar interactions: For aggregation, the interactions are mainly dominated by hydrophobic effect; for adsorption, it is driven by electrostatics interactions. This study understands the mechanisms of Ab aggregation and adsorption in atomic and fast time scales proving us a theoretical guideline for rational drug design to inhibit the cell toxicity of amyloid.
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