Vikrant Bansode scite author profile

BACKGROUND: Monoclonal antibodies (mAbs) presently dominate the biotherapeutic market. However, biotherapeutics in general, and mAbs in particular, are expensive therapies and outside the realm of affordability for most of the world. In an attempt to lower their cost of manufacturing, a novel in-house non-protein A continuous platform has recently been reported for mAb purification. In this paper, we perform an in-depth evaluation of the process economics to assess the impact of removing the protein A step on the cost of goods (COGs).RESULTS: The non-protein A platform was found to result in significant savings in COGs at about 23% when comparing both platforms in batch mode. Conversion of the non-protein A platform from batch to continuous mode led to a further increase in these savings with about 39% gains in COGs over the conventional protein A platform.CONCLUSIONS: The non-protein A purification platform offers a viable alternative to the standard protein A platform and can be considered when setting up a new facility. The continuous non-protein A platform can especially be considered given the flexibility of the setup and the utility at both small and large scales.

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Dimerization of SARS-CoV-2 nucleocapsid protein affects sensitivity of ELISA based diagnostics of COVID-19

Khan

Mishra

et al. 2022

International Journal of Biological Macromolecules

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Nucleocapsid protein (N protein) is the primary antigen of the virus for development of sensitive diagnostic assays of COVID-19. In this paper, we demonstrate the significant impact of dimerization of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) N-protein on sensitivity of enzyme-linked immunosorbent assay (ELISA) based diagnostics. The expressed purified protein from E. coli is composed of dimeric and monomeric forms, which have been further characterized using biophysical and immunological techniques. Indirect ELISA indicated elevated susceptibility of the dimeric form of the nucleocapsid protein for identification of protein-specific monoclonal antibody as compared to the monomeric form. This finding also confirmed with the modelled structure of monomeric and dimeric nucleocapsid protein via HHPred software and its solvent accessible surface area, which indicates higher stability and antigenicity of the dimeric type as compared to the monomeric form. The sensitivity and specificity of the ELISA at 95% CI are 99.0% (94.5–99.9) and 95.0% (83.0–99.4), respectively, for the highest purified dimeric form of the N protein. As a result, using the highest purified dimeric form will improve the sensitivity of the current nucleocapsid-dependent ELISA for COVID-19 diagnosis, and manufacturers should monitor and maintain the monomer-dimer composition for accurate and robust diagnostics.

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Dimerization of SARS-CoV-2 nucleocapsid protein affects sensitivity of ELISA based diagnostics of COVID-19

Khan

Mishra

et al. 2021

Preprint

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Diagnostics has played a significant role in effective management of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Nucleocapsid protein (N protein) is the primary antigen of the virus for development of sensitive diagnostic assays. Thus far, limited knowledge exists about the antigenic properties of the N protein. In this paper, we demonstrate the significant impact of dimerization of SARS-CoV-2 nucleocapsid protein on sensitivity of enzyme-linked immunosorbent assay (ELISA) based diagnostics of COVID-19. The expressed purified protein from E.coli consists of two forms, dimeric and monomeric forms, which have been further characterized by biophysical and immunological means. Indirect ELISA indicated elevated susceptibility of the dimeric form of the nucleocapsid protein for identification of protein-specific monoclonal antibody as compared to the monomeric form of the protein. These findings have also been confirmed with the modelled structure of monomeric and dimeric nucleocapsid protein via HHPred software and its solvent accessible surface area, which indicates higher stability and antigenicity of the dimeric type as compared to the monomeric form. It is evident that use of the dimeric form will increase the sensitivity of the current nucleocapsid dependent ELISA for rapid COVID-19 diagnostic. Further, the results indicate that monitoring and maintaining of the monomer-dimer composition is critical for accurate and robust diagnostics.

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Application of advanced machine learning algorithms for anomaly detection and quantitative prediction in protein A chromatography

Tiwari

Bansode

Rathore

2022

Journal of Chromatography A

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Novel method for continuous chromatographic separation of monoclonal antibody charge variants by combining displacement mode chromatography and step elution

ANUPA¹,

Bansode²,

Kateja³

et al. 2022

Preprint

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Vikrant Bansode

Contribution of protein A step towards cost of goods for continuous production of monoclonal antibody therapeutics

Dimerization of SARS-CoV-2 nucleocapsid protein affects sensitivity of ELISA based diagnostics of COVID-19

Dimerization of SARS-CoV-2 nucleocapsid protein affects sensitivity of ELISA based diagnostics of COVID-19

Application of advanced machine learning algorithms for anomaly detection and quantitative prediction in protein A chromatography

Novel method for continuous chromatographic separation of monoclonal antibody charge variants by combining displacement mode chromatography and step elution

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