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Synthesis of Pyrimidine 2‘-Deoxy Ribonucleosides Branched at the 2‘-Position via Radical Atom-Transfer Cyclization Reaction with a Vinylsilyl Group as a Radical-Acceptor Tether1

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journal contribution
posted on 02.12.2000, 00:00 by Makoto Sukeda, Satoshi Shuto, Isamu Sugimoto, Satoshi Ichikawa, Akira Matsuda
Recently, we developed a regio- and stereoselective method for introducing a vinyl group at the position β to a hydroxyl group in halohydrins or α-phenylselenoalkanols via a radical atom-transfer cyclization reaction with a vinylsilyl group as a temporary connecting radical-acceptor tether. The synthesis of 2‘-deoxy-2‘-C-vinyl- and 2‘-deoxy-2‘-C-hydroxymethyluridines (7 and 8, respectively) and the corresponding 2‘-deoxycytidine congeners (10 and 11, respectively), which were designed as potential antitumor and/or antiviral agents, was achieved using this radical atom-transfer cyclization as the key step. When the 2‘-deoxy-2‘-iodo-5‘-O-monomethoxytrityl (MMTr) uridine derivative 19a, bearing a vinylsilyl group at the 3‘-hydroxyl group, was heated with (Me3Sn)2 and AIBN in benzene, the corresponding radical atom-transfer product was generated, which in turn was successively treated with tetrabutylammonium fluoride and TBSCl/imidazole to give the desired 2‘-deoxy-5‘-O-MMTr-3‘-O-TBS-2‘-C-vinyluridine (25). Compound 25 was successfully converted into the target 2‘-deoxy-2‘-branched pyrimidine ribonucleosides 7, 8, 10, and 11.