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Abstract
BackgroundProtein expression vectors that utilize the bacteriophage T7 polymerase/promoter system are capable of very high levels of protein production. Frequently, however, expression from these vectors does not reliably achieve optimal levels of protein production. Strategies have been proposed previously that successfully maintain high expression levels, however we sought to determine the cause of induction failure.ResultsWe demonstrated that decreases in protein overproduction levels are not due to significant plasmid loss nor to mutations arising on the plasmid, but instead largely are attributable to chromosomal mutations that diminish the level of functional T7 RNA polymerase, resulting in decreased expression from the plasmid. Isolation of plasmid DNA from non-expressing strains and reintroduction of the plasmid into a T7 RNA polymerase-producing strain such as BL21(λDE3) reproducibly restored high level protein production.ConclusionsOur results suggest that a major contributing factor to decreased expression levels in T7 based systems is chromosomal mutation resulting in loss of functional T7 RNA polymerase. Consistent with this hypothesis, we found that optimal protein overproduction was obtained reproducibly from T7 promoters using freshly transformed cells that had not been subjected to outgrowth during which mutations could accumulate.
Highlights
Protein expression vectors that utilize the bacteriophage T7 polymerase/promoter system are capable of very high levels of protein production
In the pET system, the gene encoding T7 RNA polymerase is usually supplied by the host bacterial cell in the form of a λ lysogen which expresses the polymerase gene under control of the lacUV5 promoter [2,3]
We initially examined the conditions required for optimal target protein production from pET plasmids because we observed inconsistent results upon induction of plasmidborne genes
Summary
Protein expression vectors that utilize the bacteriophage T7 polymerase/promoter system are capable of very high levels of protein production. Expression from these vectors does not reliably achieve optimal levels of protein production. Often the first step in protein purification is production of the protein of interest in Escherichia coli using a gene expression system that allows selective overexpression of a cloned gene [1]. One commonly used system for achieving high levels of target protein production depends on the extremely selective nature of the bacteriophage T7 RNA polymerase for specific promoters [2,3,4]. In the pET system, the gene encoding T7 RNA polymerase is usually supplied by the host bacterial cell in the form of a λ lysogen which expresses the polymerase gene under control of the lacUV5 promoter [2,3]. The target protein is encoded on a (page number not for citation purposes)
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