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1 R. D. Chambers, "The preparation of difluoromethylenephosphonate analogues of glycolytic phosphates. Approaching an isosteric and isoelectronic phosphate mimic" 45 : 5101-5108, 1989
2 E. De Clercq, "The holy trinity : the acyclic nucleoside phosphonates" 67 : 293-316, 2013
3 D. B. Berkowitz, "Synthesis of(α, α, -difluoroalkyl)phosphonates by displacement of primary triflates" 58 : 6174-6176, 1993
4 S. G. Dumbre, "Synthesis of α-L-threose nucleoside phosphonates via regioselective sugar protection" 78 : 7137-7144, 2013
5 G. M. Blackburn, "Synthesis of α- and γ-fluoroalkylphosphonates" 1 : 913-917, 1986
6 U. Pradere, "Synthesis of nucleoside phosphate and phosphonate prodrugs" 114 : 9154-9218, 2014
7 D. Hocková, "Synthesis of branched 9-[2-(2-phosphonoethoxy)ethyl]purines as a new class of acyclic nucleoside phosphonates which inhibit Plasmodium falciparum hypoxanthine-guanine-xanthine phosphoribosyltransferase" 17 : 6218-6232, 2009
8 J. Matulic-Adamic, "Synthesis of 5'-deoxy-difluoromethyl phosphonate nucleoside analogs" 60 : 2563-2569, 1995
9 D. Vina, "Synthesis of 3'-O-phosphonomethyl nucleosides with an adenine base moiety" 63 : 2634-2646, 2007
10 S. G. Levy, "Synthesis of 2-chloro-2', 5'-dideoxy-5'-(phosphinyldifluoromethyl)adenosine : A nonhydrolyzable isosteric, isopolar analog of 2-chlorodeoxyadenosine monophosphate" 7 : 843-846, 1996
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