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Please use this identifier to cite or link to this item: http://ntour.ntou.edu.tw:8080/ir/handle/987654321/27880

Title: Prediction of Conformational Epitopes by Geometrical Affinity and Chemical Propensity Approaches
Authors: Cheng-Ying Tang;Wei-Kuo Wu;Yu-Ping Hsu;Hsin-Wei Wang;Tun-Wen Pai;Hao-Teng Chang
Contributors: NTOU:Department of Computer Science and Engineering
國立臺灣海洋大學:資訊工程學系
Keywords: conformational epitope;side chain surface rate;surface curvature;physicochemical propensity
Date: 2009-09
Issue Date: 2011-10-21T02:34:19Z
Publisher: The Third International Symposium on Optimization and Systems Biology
Abstract: Abstract:A conformational epitope is composed of several discontinuous segments as antigenic determinants which are spatially close to each other in the three dimensional structure. These segments form the antigen which may bind with a specific receptor of the immune system, and play an important role in vaccine designs and immuno-biological experiments. Though there are two major types of epitopes: linear and conformational epitopes, it has been estimated that more than 90% of B-cell epitopes depend on nonsequential amino acids and are geometrically clustered due to molecular folding. Therefore, prediction of conformational epitopes rather than linear ones becomes an important and challenging task for practical applications. In this paper, a novel conformational epitope prediction system was developed based on the characteristics of surface rate analysis of side chain atoms, distribution of surface curvature attribute, and physicochemical propensity of each surface residue. It is the first conformational epitope prediction system based on the combinatorial features of curvatures and surface rates of side chain atoms. In this paper, benchmark datasets were employed to train the optimal parameter settings, and thirty extra antigen-antibody complexes from three different data resources with verified conformational epitopes were adopted to evaluate the prediction accuracy. Comparing with those well-developed tools, our proposed method outperformed the others in both aspects of accuracy and efficiency. For this testing dataset, the proposed system achieved an average sensitivity of 39.4%, an average specificity of 91.2%, and an average AUC value of 0.69.
Relation: pp.189-197
URI: http://ntour.ntou.edu.tw/handle/987654321/27880
Appears in Collections:[資訊工程學系] 演講及研討會

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