Abstract
Corynebacterium glutamicum has become a favourite model organism in white biotechnology. Nevertheless, only few systems for the regulatable (over)expression of homologous and heterologous genes are currently available, all of which are based on the endogenous RNA polymerase. In this study, we developed an isopropyl-β-d-1-thiogalactopyranosid (IPTG)-inducible T7 expression system in the prophage-free strain C. glutamicum MB001. For this purpose, part of the DE3 region of Escherichia coli BL21(DE3) including the T7 RNA polymerase gene 1 under control of the lacUV5 promoter was integrated into the chromosome, resulting in strain MB001(DE3). Furthermore, the expression vector pMKEx2 was constructed allowing cloning of target genes under the control of the T7lac promoter. The properties of the system were evaluated using eyfp as heterologous target gene. Without induction, the system was tightly repressed, resulting in a very low specific eYFP fluorescence (= fluorescence per cell density). After maximal induction with IPTG, the specific fluorescence increased 450-fold compared with the uninduced state and was about 3.5 times higher than in control strains expressing eyfp under control of the IPTG-induced tac promoter with the endogenous RNA polymerase. Flow cytometry revealed that T7-based eyfp expression resulted in a highly uniform population, with 99% of all cells showing high fluorescence. Besides eyfp, the functionality of the corynebacterial T7 expression system was also successfully demonstrated by overexpression of the C. glutamicum pyk gene for pyruvate kinase, which led to an increase of the specific activity from 2.6 to 135 U mg−1. It thus presents an efficient new tool for protein overproduction, metabolic engineering and synthetic biology approaches with C. glutamicum.
Highlights
The recombinant production of proteins is a highly important issue in industrial biotechnology as well as in scientific research
It is based on the RNA polymerase (RNAP) of bacteriophage T7, which shows a number of beneficial properties: (i) single-subunit enzyme in contrast to multisubunit bacterial RNAP, (ii) high processivity, (iii) high specificity towards the T7 promoter, (iv) independence of auxiliary transcription factors, (v) production of very long transcripts, and (vi) termination only by class I and class II termination signals that differ significantly from bacterial transcription termination sites (Chamberlin and Ring, 1973; Macdonald et al, 1994; Lyakhov et al, 1998)
A T7 RNAP-dependent expression system was developed for C. glutamicum based on a chromosomally encoded T7 RNAP and a vector in which the target gene was placed under the control of a T7 promoter
Summary
The recombinant production of proteins is a highly important issue in industrial biotechnology as well as in scientific research. One of the most popular and commonly used systems for high-level protein production in Escherichia coli is the T7 expression system developed by Studier and Moffatt (1986) It is based on the RNA polymerase (RNAP) of bacteriophage T7, which shows a number of beneficial properties: (i) single-subunit enzyme in contrast to multisubunit bacterial RNAP, (ii) high processivity, (iii) high specificity towards the T7 promoter, (iv) independence of auxiliary transcription factors, (v) production of very long transcripts, and (vi) termination only by class I and class II termination signals that differ significantly from bacterial transcription termination sites (Chamberlin and Ring, 1973; Macdonald et al, 1994; Lyakhov et al, 1998). The results obtained show that the T7 system allows very efficient and controllable protein overproduction in C. glutamicum to levels that outperform currently available systems
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