摘要: | 由於抗生素的濫用,導致微生物的抗藥性迅速增加,使得較不易產生抗藥性的抗菌肽在治療醫學中的角色日趨重要。抗菌肽是先天性免疫系統的重要組成部分,且廣泛出現在大多數的生物體上。此外抗菌肽具有廣泛的抗菌活性,如對抗病毒、寄生蟲、細菌與真菌等等。然而針對同時區分抗菌肽多種功能類型的文獻較為缺乏,甚至鮮少研究進一步分析其相關特徵之重要性。因此本研究基於兩階段架構建立八個分類器辨識抗菌肽及其功能類型,並使用前向選擇演算法尋找重要特徵,其中,第一階段的抗菌肽分類器於測試集的曲面下面積為0.9894;第二階段的抗寄生蟲、抗病毒、抗癌症、哺乳動物細胞、抗真菌、抗革蘭氏陽細菌以及抗革蘭氏陰細菌分類器在獨立測試集的曲面下面積分別為0.7474、0.9397、0.8150、0.8515、0.8533、0.8725及0.8576。此外我們發現第一殘基的疏水性、正規化的范德瓦爾斯體積、極性、極化率、電荷、二級結構以及可溶性是分辨抗菌肽與非抗菌肽的重要特徵。除上述提到七種物理化學性質外,偽胺基酸組成亦為區分抗菌肽的之不同類型的重要的特徵。最後我們建構一個網站,提供肽序列之抗菌肽及其功能類型預測。;Owing to the abuse of antibiotics, the infection resistance of microbial pathogens against chemical antibiotics increases rapidly. Antimicrobial peptides (AMPs) are essential components of the innate immune system with the lower possibility on the emergence of resistance and produced by virtually all organisms known on earth, hence become the attractive candidates for development as therapeutics. AMPs are able to resist various pathogenic microorganisms, such as viruses, parasites, bacteria, and fungi. However, little research dedicates to differentiate the multiple functional types of AMPs simultaneously or even analyze those features that may highly related to distinguish them. In this study, we construct 8 classifiers under two-stage framework to identify the AMPs with their functional types. Moreover, we adopted forward selection strategy to find some important features that may associate with the functional types of AMPs. In the first stage, the resulting area under curves (AUC) of AMP classifier is 0.9894 on the testing set. In the second stage, the AUCs of parasitic, viral, cancer, mammalian, fungal, gram-positive bacterial and gram-negative bacterial are 0.7474, 0.9397, 0.8150, 0.8515, 0.8533, 0.8725 and 0.8576 on the independent testing set, respectably. Besides, we found that hydrophobicity, normalized van der Waals volume, polarity, polarizability, charge, secondary structure and solvent accessibility in the first residue were important patterns to identify AMPs and non-AMPs. In addition to these seven properties, pseudo amino acid composition was also the important factors to distinguish different functional types of AMPs. We developed a web-server called AMPfun to provide our classifiers for AMP and their functional types prediction. |