Improved pEKEx2-derived expression vectors for tightly controlled production of recombinant proteins in Corynebacterium glutamicum

Abstract

The Escherichia coli/Corynebacterium glutamicum shuttle vector pEKEx2 is an IPTG-inducible expression vector that has been used successfully for the synthesis of numerous proteins in C. glutamicum. We discovered that the leaky gene expression observed for pEKEx2-derived plasmids relates to reduced functionality of the plasmid-encoded repressor LacI carrying a modified C-terminus, while duplicate DNA sequences in the pEKEx2 backbone contribute to plasmid instability. We constructed the pEKEx2-derivatives pPBEx2 and pPREx2, which harbor a restored lacI gene and which lack the unnecessary duplicate DNA sequences. pPREx2 in addition enables fusion of target genes to a C-terminal Strep-tag II coding region for easy protein detection and purification. In the absence of inducer, the novel vectors exhibit tight gene repression in C. glutamicum, as shown for the secretory production of Fusarium solani pisi cutinase and the cytosolic production of green fluorescent protein and C. glutamicum myo-inositol dehydrogenase. Undesired heterogeneity amongst clones expressing cutinase from pEKEx2 was attributed to the loss of a vector fragment containing the cutinase gene, which likely occurred via homologous recombination of the identical flanking DNA sequences. Such loss was not observed for pPBEx2. Using pPREx2, IolG-Strep was successfully produced and purified to homogeneity by Strep-Tactin affinity chromatography, obtaining 1.5 mg IolG with a specific activity of 27 μmol·min−1·(mg protein)−1 from 100 mL culture. The tight gene repression in the absence of inducer and the improved plasmid stability make expression vectors pPBEx2/pPREx2 attractive alternatives to the available molecular tools for genetic manipulation and high-level production of recombinant proteins in C. glutamicum.