Therapeutic messenger RNA (mRNA) has been demonstrated as a scalable and versatile vaccine platform for the rapid development and manufacture of new vaccine candidates. mRNA is synthesized enzymatically through in vitro transcription (IVT) using bacteriophage T7 RNA polymerase (T7 RNAP), a 99 kDa protein with high binding affinity for the promoter sequence and a low error rate. Post-IVT, mRNA is purified to remove impurities, but if T7 RNAP is insufficiently cleared, undesirable clinical side effects may result. Therefore, it is important to quantitate T7 RNAP concentrations in IVT and process intermediates to understand clearance during downstream purification. A high-throughput T7 RNAP assay was developed using Simple Western (SW), a capillary immunoassay technology, to quantitate concentrations as low as 5.3 ng/mL with good precision and accuracy. Compared to existing T7 RNAP immunoassays or total protein assays such as bicinchoninic acid assays or Bradford, the SW T7 RNAP assay is specific to T7 RNAP, requires <10 µL of sample volume, and consists of minimal sample handling and hands-on time. This work highlights the development and optimization of a highly sensitive and robust T7 RNAP quantitation assay using the SW platform.
Keywords: Simple Western; T7 RNA polymerase; capillary western; mRNA vaccine; purification.
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