Objective:To analyze the structure of aquaporins-3(AQP-3) from Schistosoma japonicum(SJAQP-3) using bioinformalical methods,and to provid of references for vaccine targets research.Methods:Protparam,BepiPred,TMHMM Ser...Objective:To analyze the structure of aquaporins-3(AQP-3) from Schistosoma japonicum(SJAQP-3) using bioinformalical methods,and to provid of references for vaccine targets research.Methods:Protparam,BepiPred,TMHMM Server,MLRC,Geno3d,DNA star software packages were used to predict the physical and chemical properties,hydrophilicity plot, flexibility regions,antigenic index,surface probability plot,secondary structure,and tertiary structure of amino acid sequence of SJAQP-3.Results:SJAQP-3 had six transmembrane regions and two half-spanning helices that form a central channel.The half-spanning helices fold into the centre of the channel.Either of the half-spanning helix had a conserved motif of NPA common to all aquaporins.Predicted linear B-Cell epitopes were most likely at the N-terminal amino acid residues of Saa-7aa,59aa- 62aa,225aa-230aa,282aa -288aa,294aa -29Saa and 305aa -307aa area.59aa- 62aa,22Saa-230aa located outside the membrane,the others located inside the cell.Conclusions:SJAQP-3 is a integral membrane protein in Schistosoma japonicum tegument.There are six potential epitopes in SJ AQP-3.It might be a potential molecular target for the development of vaccines.展开更多
Objective:To identify novel drug targets for treatment of Plasmodium falciparum.Methods: Local BT.ASTP were used to find the proteins non-homologous to human essential proteins as novel drug targets.Functional domains...Objective:To identify novel drug targets for treatment of Plasmodium falciparum.Methods: Local BT.ASTP were used to find the proteins non-homologous to human essential proteins as novel drug targets.Functional domains of novel drug targets were identified by InterPro and Pfam.3D structures of potential drug targets were predicated by the SWISS-MODEL workspace. Ligands and ligand-binding sites of the proteins were searched by Ef-seek.Results:Three essential proteins were identified that might be considered as potential drug targets.AAN37254.1 belonged to 1-deoxy-D-xylulose 5-phosphate reductoisomerase,CAD50499.1 belonged to chorismale synthase,CAD51220.1 belonged to FAD binging 3 family,but the function of CAD51220.1 was unknown.The 3D structures,ligands and ligand-binding sites of AAM37254.1 and CAD50499.1 were successfully predicated.Conclusions:Two of these potential drug targets are key enzymes in 2-C-methyl-d-erythritol 4-phosphate pathway and shikimate pathway, which are absent in humans,so these two essential proteins are good potential drug targets.The function and 3D structures of CAD50499.1 is still unknown,it still need further study.展开更多
文摘Objective:To analyze the structure of aquaporins-3(AQP-3) from Schistosoma japonicum(SJAQP-3) using bioinformalical methods,and to provid of references for vaccine targets research.Methods:Protparam,BepiPred,TMHMM Server,MLRC,Geno3d,DNA star software packages were used to predict the physical and chemical properties,hydrophilicity plot, flexibility regions,antigenic index,surface probability plot,secondary structure,and tertiary structure of amino acid sequence of SJAQP-3.Results:SJAQP-3 had six transmembrane regions and two half-spanning helices that form a central channel.The half-spanning helices fold into the centre of the channel.Either of the half-spanning helix had a conserved motif of NPA common to all aquaporins.Predicted linear B-Cell epitopes were most likely at the N-terminal amino acid residues of Saa-7aa,59aa- 62aa,225aa-230aa,282aa -288aa,294aa -29Saa and 305aa -307aa area.59aa- 62aa,22Saa-230aa located outside the membrane,the others located inside the cell.Conclusions:SJAQP-3 is a integral membrane protein in Schistosoma japonicum tegument.There are six potential epitopes in SJ AQP-3.It might be a potential molecular target for the development of vaccines.
基金supported by Science and Technology Innovation Fund of Guangdong Medical College(No.STIF 201107)
文摘Objective:To identify novel drug targets for treatment of Plasmodium falciparum.Methods: Local BT.ASTP were used to find the proteins non-homologous to human essential proteins as novel drug targets.Functional domains of novel drug targets were identified by InterPro and Pfam.3D structures of potential drug targets were predicated by the SWISS-MODEL workspace. Ligands and ligand-binding sites of the proteins were searched by Ef-seek.Results:Three essential proteins were identified that might be considered as potential drug targets.AAN37254.1 belonged to 1-deoxy-D-xylulose 5-phosphate reductoisomerase,CAD50499.1 belonged to chorismale synthase,CAD51220.1 belonged to FAD binging 3 family,but the function of CAD51220.1 was unknown.The 3D structures,ligands and ligand-binding sites of AAM37254.1 and CAD50499.1 were successfully predicated.Conclusions:Two of these potential drug targets are key enzymes in 2-C-methyl-d-erythritol 4-phosphate pathway and shikimate pathway, which are absent in humans,so these two essential proteins are good potential drug targets.The function and 3D structures of CAD50499.1 is still unknown,it still need further study.