Objective:To predict structure and function of translationally controlled tumor protein(TCTP)from Spirometraa mansoni by bioinformatics technology,and to provide a theoretical basis for further study.Methods:Open read...Objective:To predict structure and function of translationally controlled tumor protein(TCTP)from Spirometraa mansoni by bioinformatics technology,and to provide a theoretical basis for further study.Methods:Open reading frame(ORF)of EST sequence from Spirometra mansoni was obtained by ORE finder and was translated into amino acid residue by DNAclub.The structure domain was analyzed by Blast.By the method of online analysis tools:Protparam,InterProScan,protscale.SignalP-3.0,PSORTⅡ,BepiPred,TMHMM,VectorNT1 Suite 9 packages and Phyre2,the structure and function of the protein were predicted and analyzed.Results:The results showed that the EST sequence was Sm TCTP with 173 amino acid residues,theoretical molecular weight was 19 872.0 Da.The protein has the closest evolutionary status with Clonorchis sinensis.Schistosoma mansoni,and Schistosoma japonicum.Then it had no signal peptide site and transmembrane domain.Secondary structure of TCTP contained twoα-helices and eightβ-strands.Conclusions:Sm TCTP was a variety of biological functions of protein that may be used as a vaccine candidate molecule anti drug target.展开更多
基金supported by Natural Science Foundation of China(Foundation No.81260254)
文摘Objective:To predict structure and function of translationally controlled tumor protein(TCTP)from Spirometraa mansoni by bioinformatics technology,and to provide a theoretical basis for further study.Methods:Open reading frame(ORF)of EST sequence from Spirometra mansoni was obtained by ORE finder and was translated into amino acid residue by DNAclub.The structure domain was analyzed by Blast.By the method of online analysis tools:Protparam,InterProScan,protscale.SignalP-3.0,PSORTⅡ,BepiPred,TMHMM,VectorNT1 Suite 9 packages and Phyre2,the structure and function of the protein were predicted and analyzed.Results:The results showed that the EST sequence was Sm TCTP with 173 amino acid residues,theoretical molecular weight was 19 872.0 Da.The protein has the closest evolutionary status with Clonorchis sinensis.Schistosoma mansoni,and Schistosoma japonicum.Then it had no signal peptide site and transmembrane domain.Secondary structure of TCTP contained twoα-helices and eightβ-strands.Conclusions:Sm TCTP was a variety of biological functions of protein that may be used as a vaccine candidate molecule anti drug target.
文摘目的应用生物信息学技术预测曼氏迭宫绦虫线粒体载体蛋白超家族的结构和功能,为进一步研究曼氏迭宫绦虫的蛋白质提供理论依据。方法将测得的曼氏迭宫绦虫成虫EST序列用ORF finder获取开放读码框,Blast进行分析其结构域。应用分析工具Protparam、InterProScan、protscale、SignalP-3.0、PSORTⅡ、BepiPred、TMHMM、VectorNTI Suite 9软件包、Phyre2分别进行该蛋白质的基本性质、结构域、疏水性、信号肽、亚细胞定位、抗原表位、跨膜区及空间结构的预测及分析。结果 Blast预测该蛋白质为线粒体载体蛋白超家族,保守功能域为线粒体二羧酸载体,含294个氨基酸残基,理论分子量为32132.2Da。与曼氏血吸虫进化地位最接近;有1个信号肽位点和6个潜在的抗原表位。结论曼氏迭宫绦虫线粒体二羧酸载体能够介导苹果酸、琥珀酸等二羧酸的转运,使其跨越线粒体膜参与三羧酸循环,为虫体自身提供能量,可能是潜在的疫苗候选分子及药物作用靶点。