Process Characterization by Definitive Screening Design Approach on DNA Vaccine Production

Plasmid DNA is a vital biological tool for molecular cloning and transgene expression of recombinant proteins; however, decades ago, it has become an exceptionally appealing as a potential biopharmaceutical product as genetic immunization for animal and human use. The demand for large-quantity produ...

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Bibliographic Details
Published in:Frontiers in bioengineering and biotechnology 2020-10, Vol.8, p.574809-574809
Main Authors: Hocharoen, Lalintip, Noppiboon, Sarawuth, Kitsubun, Panit
Format: Article
Language:English
Subjects:
Bioengineering and Biotechnology
critical process parameter
critical quality attributes
definitive screening design
DNA vaccine
process characterization
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Summary:Plasmid DNA is a vital biological tool for molecular cloning and transgene expression of recombinant proteins; however, decades ago, it has become an exceptionally appealing as a potential biopharmaceutical product as genetic immunization for animal and human use. The demand for large-quantity production of DNA vaccines also increases. Thus, we, herein, presented a systematic approach for process characterization of fed-batch DH5α fermentation producing a porcine DNA vaccine. Design of Experiments (DoE) was employed to determine process parameters that have impacts on a critical quality attribute of the product, which is the active form of plasmid DNA referred as supercoiled plasmid DNA content, as well as the performance attributes, which are volumetric yield and specific yield from fermentation. The parameters of interest were temperature, pH, dissolved oxygen, cultivation time, and feed rate. Using the definitive-screening design, there were 16 runs, including 3 additional center points to create the predictive model, which then was used to simulate the operational ranges for capability analysis.
ISSN:2296-4185
2296-4185
DOI:10.3389/fbioe.2020.574809