Abstract
We report the first syntheses of three nucleoside analogues, namely, 2',4'-diOMe-rU, 2'-OMe,4'-F-rU, and 2'-F,4'-OMe-araU, via stereoselective introduction of fluorine or methoxy functionalities at the C4'-α-position of a 4',5'-olefinic intermediate. Conformational analyses of these nucleosides and comparison to other previously reported 2',4'-disubstituted nucleoside analogues make it possible to evaluate the effect of fluorine and methoxy substitution on the sugar pucker, as assessed by NMR, X-ray diffraction, and computational methods. We found that C4'-α-F/OMe substituents reinforce the C3'-endo ( north) conformation of 2'-OMe-rU. Furthermore, the predominant C2'-endo ( south/ east) conformation of 2'-F-araU switches to C3'-endo upon introduction of these substituents at C4'. The nucleoside analogues were incorporated into DNA and RNA oligonucleotides via standard phosphoramidite chemistry, and their effects on the thermal stability of homo- and heteroduplexes were assessed via UV thermal melting experiments. We found that 4'-substituents can modulate the binding affinity of the parent 2'-modified oligomers, inducing a mildly destabilizing or stabilizing effect depending on the duplex type. This study expands the spectrum of oligonucleotide modifications available for rational design of oligonucleotide therapeutics.
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