Construction of a Mutant CaM-expressing Plasmid,and Expression,Purification,and Activity Identification of the Recombinant Protein / 中国医科大学学报

Objective To construct a CaME141G fusion protein-expressing plasmid,and to express,purify,and identify the activity of the recombinant protein. Methods The 141st site of the wild type CaM,E (GAG),was mutated to G (GGG),using site-specific mutagenesis technology. Escherichia coli BL-21 was transformed with the mutant plasmid. The GST-CaME141G fusion protein was mass-cultured and induced for expression. Subsequently,the GST-CaME141G fusion protein was purified using GS-4B beads. PreScission protease was applied to remove the GST,the Bradford method used to determine the concentration of purified protein,and SDS-PAGE used to detect its relative molecular weight and purity. The GST pull-down assay was used to study the protein's biological activity. Results The CaME141G protein was successfully purified at a high concentration and purity. The protein could interact with PreIQ protein fragments from the myocardial CaV1. 2 calcium channel C terminal,in a CaME141G concentration-dependent manner. Therefore,CaME141G has the ability to bind with the CaV1. 2 calcium channel. Conclusion This study successfully constructed a CaME141G fusion protein-expressing plasmid and purified the CaME141G protein. This lays a foundation for regulating the function of CaM mutations in the myocardial CaV1. 2 calcium channel,and for the study of its relationship with diseases of the cardiovascular system.

Expression and Purification of an N?terminal Fragment of the Cav1.2 Calcium Channel and Characterization of Its Interaction with Calmodulin / 中国医科大学学报

Objective To investigate a method for the purification of the N?terminal peptide fragment(NT)of the myocardial calcium channel Cav1.2,and characterize its interaction with calmodulin(CaM). Methods EscherichiacoliBL?21 cells were transformed with plasmid pGEX?6p?3/NT harboring the NT?GST fusion gene. The cells harboring pGEX?6p?3/NT were cultured and protein expression was induced with isopropyl?β?D?thiogalactoside(IPTG). Then,the GST?NT fusion protein was purified by using glutathione Sepharose 4B(GS?4B)beads. GST was cleaved off with the PreScission protease,and SDS?PAGE was performed to detect the purity and relative molecular weight of the purified peptide. Further, GST pull?down assay was performed to characterize the interaction of the NT peptide with CaM. Results SDS?PAGE analysis showed that the NT peptide was successfully purified,with high purity. Results of the GST pull?down assay showed that the NT peptide could interact with CaM. Conclusion This study establishes a method for the purification of the NT peptide and lays the foundation for further research on the interaction partners and biological functions of NT.

Vector Construction,Protein Expression,Purification and Identification of Calmodulin Mg2+Binding Site Mutants / 中国医科大学学报

Objective To construct plasmid vectors of calmodulin(CaM)Mg2+binding site mutants,and to express,purify and identify the mutant proteins. Methods Three kinds of cDNAs coding for the mutated CaM were cloned into pGEX?6P?3 plasmid vectors. These recombinant plasmids were transfected into Escherichia coli BL21 to express GST fusion proteins of CaM mutants. The fusion proteins were purified with Glutathione?Sep?harose 4B beads and PreScission protease. Results Both enzyme digestion analysis and DNA sequence identification proved the successful con?struction of the CaM mutant plasmids. SDS?PAGE results showed the high purity of each CaM mutant protein. The concentrations of three CaM mu?tants were around 1.0 mg/mL. Conclusion Prokayotic expression vectors of CaM Mg2+binding site mutants were successfully developed,and the eli?gible CaM mutant proteins were obtained. This study provided an important basis for further study on CaM’s biological function.