2009
DOI: 10.1007/s00253-009-1889-8
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Engineering of bacterial strains and vectors for the production of plasmid DNA

Abstract: The demand for plasmid DNA (pDNA) is anticipated to increase significantly as DNA vaccines and non-viral gene therapies enter Phase 3 clinical trials and are approved for use. This increased demand, along with renewed interest in pDNA as a therapeutic vector, has motivated research targeting the design of high-yield, cost-effective manufacturing processes. An important aspect of this research is engineering bacterial strains and plasmids that are specifically suited to the production of plasmid biopharmaceutic… Show more

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Cited by 49 publications
(16 citation statements)
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“…Different E. coli strains present different heterologous gene expression capacities [138,139], but few studies have attempted to determine the effect of host strain on recombinant protein production using plasmids that contain λ elements. In one of such studies, different strains were transformed with plasmid λPL-DsbA (peptide signal of the periplasmic protein DsbA) containing the coding hGH gene [125].…”
Section: Phenomena and Variables That Modulate The Productivity In Thmentioning
confidence: 99%
“…Different E. coli strains present different heterologous gene expression capacities [138,139], but few studies have attempted to determine the effect of host strain on recombinant protein production using plasmids that contain λ elements. In one of such studies, different strains were transformed with plasmid λPL-DsbA (peptide signal of the periplasmic protein DsbA) containing the coding hGH gene [125].…”
Section: Phenomena and Variables That Modulate The Productivity In Thmentioning
confidence: 99%
“…As earlier reviewed, strain engineering can increase pDNA percentage per cell, reduce genomic DNA and RNA impurities, and decrease process stream or lysate viscosity (Bower and Prather, 2009). Moreover, a carefully designed strain may result in improved plasmid topology and segregational stability, and eventually contribute to increased transfection efficiency of the final plasmid product (Gonç alves et al, 2012).…”
Section: Impact Of Strain Genotype On Pdna Purificationmentioning
confidence: 97%
“…DEP can be envisaged as a technique that could answer many of the requirements for purification of pharmaceutical-grade nucleic acids. Gene therapy and DNA vaccines will become a commercial reality in the following years [28][29][30], in fact, large-scale production and purification of nucleic acids are currently on demand for both laboratory and clinical trials [31,32]. Microdevices used in massively parallel systems could accomplish large-scale DNA purification, leading to faster separations while decreasing reagent consumption, making the purification processes more economically favorable.…”
Section: Importance Of Dna Purificationmentioning
confidence: 99%