A chemo-enzymatic method for production of ß-thymidine, an intermediate in the synthesis of antiretrovirals, is described. Guanosine and thymine were converted by means of enzymatic transglycosylation to yield 5-methyluridine (5-MU), which was reproducibly synthesised at a 10-20-L scale in 85% yield at a final product concentration of 80 g·L-1. A downstream processing (DSP) protocol was designed to remove reaction components interfering with the subsequent synthetic step. The crystallised 5-MU produced in the biocatalytic reaction was found to behave similarly to commercially available 5-MU, and the integration of the initial biocatalytic and subsequent three-step chemical process to ß-thymidine was successfully demonstrated at bench scale.
Reference:
Gordon, GER, Bode, ML, Visser, DF, Lepuru, MJ, Zeevaart, JG, Ragubeer, N, Ratsaka, M, Walwyn, DR and Brady, D. 2011. An integrated chemo-enzymatic route for preparation of ß-thymidine, a key intermediate in the preparation of antiretrovirals. Organic Process Research & Development, vol. 15(1), pp 258-265
Gordon, G., Bode, M., Visser, D. F., Lepuru, M., Zeevaart, J., Ragubeer, N., ... Brady, D. (2011). An integrated chemo-enzymatic route for preparation of ß-thymidine, a key intermediate in the preparation of antiretrovirals. http://hdl.handle.net/10204/5784
Gordon, GER, ML Bode, Daniel F Visser, MJ Lepuru, JG Zeevaart, N Ragubeer, M Ratsaka, DR Walwyn, and D Brady "An integrated chemo-enzymatic route for preparation of ß-thymidine, a key intermediate in the preparation of antiretrovirals." (2011) http://hdl.handle.net/10204/5784
Gordon G, Bode M, Visser DF, Lepuru M, Zeevaart J, Ragubeer N, et al. An integrated chemo-enzymatic route for preparation of ß-thymidine, a key intermediate in the preparation of antiretrovirals. 2011; http://hdl.handle.net/10204/5784.
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