Abstract
Escherichia coli is one of the most widely used hosts for the production of heterologous proteins. Within this host, the choice of cloning vector constitutes a key factor for a satisfactory amplified expression of a target gene. We aimed to develop novel, unpatented expression vectors that enable the stable maintenance and efficient overproduction of proteins in E. coli. A series of expression vectors based on the ColE1-like pIGDM1 plasmid were constructed. The vectors named pIGDMCT7RS, pIGDM4RS and pIGDMKAN carry various antibiotic resistance genes: chloramphenicol, ampicillin or kanamycin, respectively. Two derivatives contain the inducible T7 promoter while the third one bears the constitutive pms promoter from a clinical strain of Klebsiella pneumoniae. The pIGDM1-derivatives are compatible with other ColE1-like plasmids commonly used in molecular cloning. The pIGDMCT7RS and pIGDM4RS vectors contain genes encoding AGA and AGG tRNAs, which supplement the shortage of these tRNAs, increasing the efficiency of synthesis of heterologous proteins. In conclusion, pIGDMCT7RS, pIGDM4RS and pIGDMKAN vectors, with significantly improved features, including compatibility with vast majority of other plasmids, were designed and constructed. They enable a high-level expression of a desired recombinant gene and therefore constitute a potential, valuable tool for pharmaceutical companies and research laboratories for their own research or for the production of recombinant biopharmaceuticals.
Highlights
Escherichia coli plasmids are widely used in biotechnology as vectors for the overproduction of proteins
The expression plasmid pIGDMCT7RS is a derivative of plasmid pIGDM1 [14]
The obtained expression vector was verified as a useful tool for protein overproduction in E. coli cells
Summary
Escherichia coli plasmids are widely used in biotechnology as vectors for the overproduction of proteins. Even though standard cloning procedures have become routine and a large variety of host/vector systems for the expression of recombinant genes is available, difficulties are usually encountered when theoretical strategies for overproduction of proteins are put into practice. Issues such as manipulation of the regulatory mechanisms for gene expression and the host/ vector interactions usually require extensive research if a high-level expression of a desired recombinant gene is to. It is difficult to decide which host and promoter system is the best for the heterologous protein production.
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