ABSTRACT
@#ObjectiveTo identify the sites of thermal stability at Loop structure of xylanase Xyn ASP in Aspergillus saccharolyticus JOP 1030-1 and improve the thermal stability.MethodsThe amino acid sites related to thermal stability of xylanase were predicted,and beneficial mutation sites at Loop structure were screened by Fireprot online server.Singlepoint mutants Xyn(A79Y),Xyn(A79Y),Xyn(T81Q)and double-point mutants Xyn(T81Q)and double-point mutants Xyn(LQ)(A79Y/T81Q)were constructed by site-directed mutagenesis.The recombinant mutant plasmid was transformed to E.coli BL21(DE3)and induced by IPTG.The recombinant xylanase was purified by Ni-NTA protein purification kit,and determined for the optimum temperature,thermal stability,optimum p H and p H stability.ResultsBeneficial mutation sites A79Y and T81Q were screened at Loop structure,and the purified protein samples showed high purity.Compared with that of wild type Xyn ASP,the optimum temperature of mutants Xyn(LQ)(A79Y/T81Q)were constructed by site-directed mutagenesis.The recombinant mutant plasmid was transformed to E.coli BL21(DE3)and induced by IPTG.The recombinant xylanase was purified by Ni-NTA protein purification kit,and determined for the optimum temperature,thermal stability,optimum p H and p H stability.ResultsBeneficial mutation sites A79Y and T81Q were screened at Loop structure,and the purified protein samples showed high purity.Compared with that of wild type Xyn ASP,the optimum temperature of mutants Xyn(A79Y),Xyn(A79Y),Xyn(T81Q)and Xyn(T81Q)and Xyn(LQ)increased by 10℃,5℃and 5℃,respectively.After heat treatment at 40℃for 30 min,wild type Xyn ASP retained only 30.2%residual relative activity,while the mutant Xyn(LQ)increased by 10℃,5℃and 5℃,respectively.After heat treatment at 40℃for 30 min,wild type Xyn ASP retained only 30.2%residual relative activity,while the mutant Xyn(T81Q)retained 37.7%,Xyn(T81Q)retained 37.7%,Xyn(A79Y)and Xyn(A79Y)and Xyn(LQ )still retained more than 65%.After heat treatment at 60℃for 30 min,the enzyme activity of wild type was 7.1%,while that of Xyn(LQ )still retained more than 65%.After heat treatment at 60℃for 30 min,the enzyme activity of wild type was 7.1%,while that of Xyn(LQ)remained 26.4%.The thermal stability of mutants was improved compared with that of wild type Xyn ASP.The optimum p H of Xyn(LQ)remained 26.4%.The thermal stability of mutants was improved compared with that of wild type Xyn ASP.The optimum p H of Xyn(A79Y),Xyn(A79Y),Xyn(T81Q)and Xyn(T81Q)and Xyn(LQ)was 5.0,which was lower than that of wild type Xyn ASP(p H 6.0).The p H stability of Xyn(LQ)was 5.0,which was lower than that of wild type Xyn ASP(p H 6.0).The p H stability of Xyn(A79Y),Xyn(A79Y),Xyn(T81Q)and Xyn(T81Q)and Xyn(LQ)at pH 3.0~8.0 showed no significant change compared with the wild type.ConclusionSite-directed mutagenesis(A79Y and T81Q)was carried out at Loop structure,and xylanase mutants with obviously improved thermal stability were obtained,which laid a foundation of the later research on the structure,function and relationship of the enzyme and its industrial application.