Independent validation of induced overexpression efficiency across 242 experiments shows a success rate of 39%

Although numerous studies containing induced gene expression have already been published, independent authentication of their results has not yet been performed. Here, we utilized available transcriptomic data to validate the achieved efficiency in overexpression studies. Microarray data of experiments containing cell lines with induced overexpression in one or more genes were analyzed. All together 342 studies were processed, these include 242 different genes overexpressed in 184 cell lines. The final database includes 4,755 treatment-control sample pairs. Successful gene induction (fold change induction over 1.44) was validated in 39.3% of all genes at p < 0.05. Number of repetitions within a study (p < 0.0001) and type of used vector (p = 0.023) had significant impact on successful overexpression efficacy. In summary, over 60% of studies failed to deliver a reproducible overexpression. To achieve higher efficiency, robust and strict study design with multi-level quality control will be necessary

On the dual effect of glucose during production of pBAD/AraC-based minicircles

Minicircles are promising vectors for DNA vaccination, gene or cell therapies due to their increased transfection efficacy and transgene expression. The in vivo production of these novel vectors involves the arabinose inducible excision of a parental molecule into a minicircircle and a miniplasmid bacterial backbone. Tight control of recombination is crucial to maximize minicircle yields and purity. In this work, a minicircle production system was constructed that relies on the enzymatic activity of ParA resolvase, a recombinase that is expressed under the transcription control of the arabinose inducible expression system pBAD/AraC, and on Escherichia coli BWAA, a strain improved for arabinose uptake. Undesired recombination already after 4 h of incubation in Luria-Bertani broth at 37 °C was observed due to the leaky expression from pBAD/AraC. While addition of glucose to the growth media repressed this leaky expression, it triggered a pH drop to 4.5 during exponential phase in shake flasks, which suppressed growth and plasmid production. The quantitative PCR analysis confirmed only few copies of high-copy number plasmid inside of the E. coli cells. To ensure the stability of minicircle-producing system, seed cultures should be grown at 30 °C with glucose overnight whereas cells for minicircle production should be grown in shake flasks at 37 °C without glucose up to early stationary phase when the recombination is induced by addition of arabinose.MIT-Portugal ProgramFundacao para a Ciencia e a Tecnologia (PhD Grant SFRH/BD/33786/2009)Fundacao para a Ciencia e a Tecnologia (Project PTDC/EBB-EBI/113650/2009