Bioinformatic prediction of epitopes in the Emy162 antigen of Echinococcus multilocularis

Autor: Hai-Mei Ma, Yuejie Zhu, Jianbing Ding, Xiumin Ma, Xiaoan Hu, Xiaotao Zhou, Xianfei Liu, Hao Wen, Chunbao Cao, Yanhua Li
Rok vydání: 2013
Předmět:
Zdroj: Experimental and Therapeutic Medicine. 6:335-340
ISSN: 1792-1015
1792-0981
DOI: 10.3892/etm.2013.1142
Popis: The aim of the present study was to predict the secondary structure and the T- and B-cell epitopes of the Echinococcus multilocularis Emy162 antigen, in order to reveal the dominant epitopes of the antigen. The secondary structure of the protein was analyzed using the Gamier-Robson method, and the improved self-optimized prediction method (SOPMA) server. The T- and B-cell epitopes of Emy162 were predicted using Immune Epitope Database (IEDB), Syfpeithi, Bcepred and ABCpred online software. The characteristics of hydrophilicity, flexibility, antigenic propensity and exposed surface area were predicted. The tertiary structure of the Emy162 protein was predicted by the 3DLigandSite server. The results demonstrated that random coils and β sheets accounted for 34.64 and 21.57% of the secondary structure of the Emy162 protein, respectively. This was indicative of the presence of potential dominant antigenic epitopes in Emy162. Following bioinformatic analysis, numerous distinct antigenic epitopes of Emy162 were identified. The high-scoring T-cell epitopes were located at positions 16-29, 36-39, 97-103, 119-125 and 128-135, whilst the likely B-cell epitopes were located at positions 8-10, 19-25, 44-50, 74-81, 87-93, 104-109 and 128-136. In conclusion, five T-cell and seven B-cell dominant epitopes of the Emy162 antigen were revealed by the bioinformatic methods, which may be of use in the development of a dominant epitope vaccine.
Databáze: OpenAIRE