Improved determination of plasmid copy number using quantitative real-time PCR for monitoring fermentation processes View Full Text


Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2008-07

AUTHORS

Mihaela Škulj, Veronika Okršlar, Špela Jalen, Simona Jevševar, Petra Slanc, Borut Štrukelj, Viktor Menart

ABSTRACT

BACKGROUND: Recombinant protein production in Escherichia coli cells is a complex process, where among other parameters, plasmid copy number, structural and segregational stability of plasmid have an important impact on the success of productivity. It was recognised that a method for accurate and rapid quantification of plasmid copy number is necessary for optimization and better understanding of this process. Lately, qPCR is becoming the method of choice for this purpose. In the presented work, an improved qPCR method adopted for PCN determination in various fermentation processes was developed. RESULTS: To avoid experimental errors arising from irreproducible DNA isolation, whole cells, treated by heating at 95 degrees C for 10 minutes prior to storage at -20 degrees C, were used as a template source. Relative quantification, taking into account different amplification efficiencies of amplicons for chromosome and plasmid, was used in the PCN calculation. The best reproducibility was achieved when the efficiency estimated for specific amplicon, obtained within one run, was averaged. It was demonstrated that the quantification range of 2 log units (100 to 10000 bacteria per well) enable quantification in each time point during fermentation. The method was applied to study PCN variation in fermentation at 25 degrees C and the correlation between PCN and protein accumulation was established. CONCLUSION: Using whole cells as a template source and relative quantification considering different PCR amplification efficiencies are significant improvements of the qPCR method for PCN determination. Due to the approaches used, the method is suitable for PCN determination in fermentation processes using various media and conditions. More... »

PAGES

6

Identifiers

URI

http://scigraph.springernature.com/pub.10.1186/1475-2859-7-6

DOI

http://dx.doi.org/10.1186/1475-2859-7-6

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1007350698

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/18328094


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40 schema:description BACKGROUND: Recombinant protein production in Escherichia coli cells is a complex process, where among other parameters, plasmid copy number, structural and segregational stability of plasmid have an important impact on the success of productivity. It was recognised that a method for accurate and rapid quantification of plasmid copy number is necessary for optimization and better understanding of this process. Lately, qPCR is becoming the method of choice for this purpose. In the presented work, an improved qPCR method adopted for PCN determination in various fermentation processes was developed. RESULTS: To avoid experimental errors arising from irreproducible DNA isolation, whole cells, treated by heating at 95 degrees C for 10 minutes prior to storage at -20 degrees C, were used as a template source. Relative quantification, taking into account different amplification efficiencies of amplicons for chromosome and plasmid, was used in the PCN calculation. The best reproducibility was achieved when the efficiency estimated for specific amplicon, obtained within one run, was averaged. It was demonstrated that the quantification range of 2 log units (100 to 10000 bacteria per well) enable quantification in each time point during fermentation. The method was applied to study PCN variation in fermentation at 25 degrees C and the correlation between PCN and protein accumulation was established. CONCLUSION: Using whole cells as a template source and relative quantification considering different PCR amplification efficiencies are significant improvements of the qPCR method for PCN determination. Due to the approaches used, the method is suitable for PCN determination in fermentation processes using various media and conditions.
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