Synapse - Synthesis of 2′-β-fluoro-substituted nucleosides by a direct approach

Synthesis of 2′-β-fluoro-substituted nucleosides by a direct approach Journal Article

Authors:	Pankiewicz, K. W.; Watanabe, K. A.
Article Title:	Synthesis of 2′-β-fluoro-substituted nucleosides by a direct approach
Abstract:	Recent research activities directed toward the synthesis of 2′-β-fluoro-substitutednucleosides by nucleophilic displacement of an activated 2′-hydroxy group of preformedribonucleosides are reviewed. In the pyrimidine-C-nucleoside area, direct fluorination ofa 4,5′-anhydro-C-nucleoside triflate with TASF afforded the desired 2′-β-fluoro-1-methyl-ψ-uridine (C-FMAU). A similar strategy in regular pyrimidine series by using the corresponding2,5′-O-, 2,3′-O- and 5′,6-anhydro nucleoside derivatives did not give thedesired fluoro-containing products. An interesting triflyl migration was discovered whena triflate nucleoside was treated with LiCl in HMPA. The carbocyclic analog of theadenosine containing a fluorine in the 2′-β configuration was prepared from O5′, O3′, N6-tribenzoylaristeromycin in reaction with DAST. A similar treatment of purine nucleosidesled to decomposition. When, however, inosine, adenosine and guanosine were tritylatedat the 3′,5′ positions of the sugar moiety and suitably protected at the base, thecorresponding 2′-β-fluoro-substituted arabino-nucleosides were obtained by treatmentwith DAST in moderate to good yields. Deprotection afforded the desired F-ara-H,F-ara-A and F-ara-G. The role of the bulky trityl groups at the 3′,5′ positions of thesugar and the effect of C-3′-endo to C-2′-endo conformational shift on the reaction courseof 2′-hydroxyl group with DAST is discussed. © 1993.
Journal Title:	Journal of Fluorine Chemistry
Volume:	64
Issue:	1-2
ISSN:	0022-1139
Publisher:	Elsevier Science, Inc.
Date Published:	1993-09-01
Start Page:	15
End Page:	36
Language:	English
DOI:	10.1016/s0022-1139(00)80060-3
PROVIDER:	scopus
DOI/URL:	https://www.scopus.com/inward/record.uri?eid=2-s2.0-0010576797&doi=10.1016%2fS0022-1139%2800%2980060-3&partnerID=40&md5=7d6593e7b7f702ed59d3a485c1a36c31
Notes:	Article -- Export Date: 1 March 2019 -- Source: Scopus

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125 Watanabe
43 Pankiewicz

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