Nucleosidic phosphoramidite synthesis via phosphitylation: Activator selection and process development

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Abstract

Nucleosidic phosphoramidites are key building blocks for the automated, solid supported syntheses of oligonucleotide-based drugs. A safe, industrially viable process for preparing nucleosidic phosphoramidites 5-Me-MOE-U and MOE-A has been developed and utilized on multikilogram scales. The optimization of this process is described in detail. Emphasis is placed on the search for activators to replace the hazardous 1H-tetrazole, the development of an extractive workup, and the advancement of a precipitation method to avoid both chromatographic purification and product foaming issues. © 2005 American Chemical Society.

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Xie, C., Staszak, M. A., Quatroche, J. T., Sturgill, C. D., Khau, V. V., & Martinelli, M. J. (2005). Nucleosidic phosphoramidite synthesis via phosphitylation: Activator selection and process development. Organic Process Research and Development, 9(6), 730–737. https://doi.org/10.1021/op050077d

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