1122581-41-2Relevant academic research and scientific papers
SYNTHESIS OF OSELTAMIVIR CONTAINING PHOSPHONATE CONGENERS WITH ANTI-INFLUENZA ACTIVITY
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Page/Page column sheet 4; 74-75, (2009/04/25)
Novel phosphonate compounds are described. The compounds have activity as neuraminidase inhibitors against wild-type and H274Y mutant of H1N1 and H5N1 viruses. The present disclosure also provides an enantioselective synthetic route to known neuraminidase inhibitors oseltamivir and the anti-flu drug Tamiflu, as well as novel phosphonate compounds, via D-xylose. Another efficient and flexible synthesis of Tamiflu and the highly potent neuraminidase inhibitor Tamiphosphor was also achieved in 11 steps and > 20% overall yields from the readily available fermentation product (1S-cis)-3-bromo-3,5- cyclohexadiene-1,2-diol. Most of the reaction intermediates were obtained as crystals without tedious purification procedures. The key transformations include an initial regio- and stereoselective bromoamidation of a bromoarene cis- dihydrodiol, as well as the final palladium-catalyzed carbonylation and phosphonylation.
A concise and flexible synthesis of the potent anti-influenza agents tamiflu and tamiphosphor
Shie, Jiun-Jie,Fang, Jim-Min,Wong, Chi-Huey
supporting information; experimental part, p. 5788 - 5791 (2009/03/11)
(Chemical Equation Presented) Tamiflu and the highly potent neuraminidase inhibitor tamiphosphor have been synthesized in 11 steps and greater than 20% overall yields from an haloarene (1S,2S)-cis-diol. The key transformations include a regio- and stereoselective bromoamidation, and a palladium-catalyzed carbonylation or phosphonylation reaction (see scheme; tamiflu: A = CO 2Et, B = NH3+H2PO4 -, tamiphosphor: A = PO(ONH4)2, B = NH 2).
