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Nonreplicating rotavirus vaccine (NRRV) candidates are being developed with the aim of serving the needs of developing countries. A significant proportion of the cost of manufacturing such vaccines is the purification in multiple chromatography steps. Crystallization has the potential to reduce purification costs and provide new product storage modality, improved operational flexibility, and reduced facility footprints. This communication describes a systematic approach for the design of the crystallization of an NRRV candidate, VP8 subunit proteins fused to the P2 epitope of tetanus toxin, using first-principles models and preliminary experimental data. The first-principles models are applied to literature data to obtain feasible crystallization conditions and lower bounds for nucleation and growth rates. Crystallization is then performed in a hanging-drop vapor diffusion system, resulting in the nucleation and growth of NRRV crystals. The crystals obtained in a scaled-up evaporative crystallization contain proteins truncated in the P2 region, but have no significant differences with the original samples in terms of antibody binding and overall conformational stability. These results demonstrate the promise of evaporative crystallization of the NRRV. © 2021 The Authors. Biotechnology and Bioengineering Published by Wiley Periodicals LLC.

Citation

Moo Sun Hong, Kawaljit Kaur, Nishant Sawant, Sangeeta B Joshi, David B Volkin, Richard D Braatz. Crystallization of a nonreplicating rotavirus vaccine candidate. Biotechnology and bioengineering. 2021 Apr;118(4):1750-1756

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PMID: 33527346

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