https://www.selleckchem.com/products/mitopq.html Each phase of the assay was tested to optimize and simplify the assay procedure. The accuracy, specificity, reproducibility, and stability of the assay were evaluated. Results indicated that the optimized and modified OPA assay was simple and able to quantify antigen concentration from a standard curve in the 25 µg/mL-600 µg/mL range. The assay accuracy and coefficient of variation (CV) was 95% and less than 8%, respectively, when determining the ricin protein content in the 200 µg/mL vialed RVEc™ FDP. The assay was simple to perform and used conventional laboratory equipment. This assay could be adapted to measure the protein content in the FDP of other vaccines, but with the proviso that each step of the assay would need to be optimized for each antigen.Vaccine adjuvants are compounds that enhance/prolong the immune response to a co-administered antigen. Saponins have been widely used as adjuvants for many years in several vaccines - especially for intracellular pathogens - including the recent and somewhat revolutionary malaria and shingles vaccines. In view of the immunoadjuvant potential of Q. brasiliensis saponins, the present study aimed to characterize the QB-80 saponin-rich fraction and a nanoadjuvant prepared with QB-80 and lipids (IMXQB-80). In addition, the performance of such adjuvants was examined in experimental inactivated vaccines against Zika virus (ZIKV). Analysis of QB-80 by DI-ESI-ToF by negative ion electrospray revealed over 29 saponins that could be assigned to known structures existing in their congener Q. saponaria, including the well-studied QS-21 and QS-7. The QB-80 saponins were a micrOTOF able to self-assembly with lipids in ISCOM-like nanoparticles with diameters of approximately 43 nm, here named IMXQB-80. Toxicity assays revealed that QB-80 saponins did present some haemolytical and cytotoxic potentials; however, these were abrogated in IMXQB-80 nanoparticles. Regarding the adjuvant ac