抗菌胜?資料庫分析及利用分子動態模擬法探討抗菌胜?Indolicidin於生物膜上的行為; Analysis of Antimicrobial Peptide Database and Molecular Dynamics Simulation of Antimicrobial Peptide, indolicidin in a water-membrane environment

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题名:	抗菌胜?資料庫分析及利用分子動態模擬法探討抗菌胜?Indolicidin於生物膜上的行為;Analysis of Antimicrobial Peptide Database and Molecular Dynamics Simulation of Antimicrobial Peptide, indolicidin in a water-membrane environment
作者:	蕭裕謙;Yu-chien Hsiao
贡献者:	化學研究所
关键词:	抗菌胜肽;分子動態模擬;molecular dynamics simulation;antimicrobial peptide
日期:	2009-07-03
上传时间:	2009-09-22 10:21:21 (UTC+8)
出版者:	國立中央大學圖書館
摘要:	摘要為了研究抗菌胜肽 (antimicrobial peptide) 的抗菌作用機制，我們的研究分別從三個不同方式進行: 抗菌蛋白資料庫的分析、全原子分子動態模擬Indolicidin (IL) 和膜的交互作用及利用平行淬煉分子動態法 (replica-exchange molecular dynamics, REMD)搭配implicit membrane model (GBSW model) 模擬Indolicidin及其類似物折疊及穿膜的機制。從抗菌蛋白資料庫的分析中顯示，自然界中鹼性抗菌蛋白大都具有高密度淨正電荷的特性。分析的結果顯示，鹼性抗菌蛋白演化非完全增加帶正電荷胺基酸(Arg、Lys)的propensity，相反地是降低帶負電荷胺基酸(Asp、Glu)的propensity。此外，Trp的propensity也相當的高，這也暗示著Trp可能在抗菌胜肽的功能上扮演重要的角色。我們也依抗菌胜肽的二級結構，分析20種胺基酸的propensity，可供改善抗菌胜肽的研究作為參考。利用全原子分子動態模擬法，我們探討IL-F89和POPC膜的交互作用，發現IL-F89對膜擾亂的程度較IL輕微，其中包括對膜厚的干擾以及秩序參數的改變，這些結果暗示為何IL-F89溶血性較IL的低; 溶血實驗顯示相同的趨勢。利用REMD/GBSW的演算法，進行IL-A與IL-analogs (IL、IL-F89、IL-K7F89)單體系統的模擬，發現所有的系統皆無法單獨穿入膜內，都以吸附在膜上的形態存在，然而二級結構的生成(IL-A)也無助於穿膜。根據IL-analogs模擬的結果，我們也排除了幾種抗菌胜肽穿膜的可能路徑，例如:抗菌胜肽會直接穿入膜內而於膜內進行聚集。 Abstract To understand the action mechanism of antimicrobial peptides (AMP), our study employed three different means: (i). database analysis of antimicrobial peptides, (ii). all-atom molecular dynamics (MD) simulation of the interaction between Indolicidin (IL) and membrane and (iii). folding and membrane insertion of IL and its analogues by replica-exchange molecular dynamics (REMD) simulation using implicit membrane model (GBSW model). Database analysis reveals that most naturally-occurring AMPs are cationic and own high density of net positive charges. However, the propensities of positively charged residues (Arg & Lys) are not particularly high; in contrast, the propensities of negatively charged residues (Asp & Glu) are significantly reduced. Moreover, the propensity of Trp is particularly high implying for the critical role of Trp in the antimicrobial action. In addition, we also analyzed the propensities of 20 amino acids in terms of available secondary structures giving the reference of AMP engineering research. In all-atom MD simulation, we studied the interaction of IL-F89 peptide and POPC membrane. The result showed that IL-F89 has less impact on disordering the POPC membrane (e.g. membrane thickness and order parameter). This result hints for the lower hemolytic activity of IL-F89 than Il which is consistent with the trend of experimental observations. Using REDM/GBSW, we simulated the folding and membrane insertion of IL, IL-A, IL-F89 & IL-K7F89 monomers. Simulation results showed that these peptides mainly stay at water-lipid interfaces. Moreover, the formation of ?-helix (IL-A) does not enhance its membrane insertion. These results exclude one possible pathway of IL-membrane insertion: IL is not able to insert into membrane alone and aggregates inside the membrane.
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