Synthesis and hybridization of 2'-O-methyl-RNAs incorporating 2'-O-carbamoyluridine and unique participation of the carbamoyl group in U-G base pair.

2'-O-Carbamoyluridine (U(cm)) was synthesized and incorporated into DNAs and 2'-O-Me-RNAs. The oligonucleotides incorporating U(cm) formed less stable duplexes with their complementary and U(cm)-U, U(cm)-C single-base mismatched DNAs and RNAs in comparison with those without the carbamoyl group. On the contrary, the T(m) analyses revealed that the duplexes with a mismatched U(cm)-G base pair showed almost the same thermostability as the corresponding unmodified duplexes.

New nucleotide pairs for stable DNA triplexes stabilized by stacking interaction.

New nucleotide pairs applicable to formation of DNA triplexes were developed. We designed oligonucleotides incorporating 5-aryl deoxycytidine derivatives (dC5Ars) and cyclic deoxycytidine derivatives, dCPPP and dCPPI, having an expanded aromatic area, as the second strand. As pairing partners, two types of abasic residues (C3: propylene linker, phi: abasic base) were chosen.

Synthesis and properties of oligonucleotides with iodo-substituted aromatic aglycons: investigation of possible halogen bonding base pairs.

Ab initio calculations of halogen bond energies of artificial base pairs constructed between iodinated aromatic nucleobase mimics and nitrogen-containing acceptor molecules such as pyridine and imidazole suggest that modified base pairs are converted to optimized planar base pairs with weak Delta E values of -0.19 to -3.93 kcal/mol.

Synthesis and properties of artificial base pairs by use of halogen bonds.

Artificial base pairs by use of halogen bonding were designed and their interaction energies were estimated by ab initio calculations. The optimized structures of the artificial base pairs were almost consistent with those of the canonical base pairs, and the interaction energies were ca. 5-11 kcal/mol.

Synthesis of 2'-O-methyl-RNAs incorporating a 3-deazaguanine, and UV melting and computational studies on its hybridization properties.

2'-O-methyl-RNAs incorporating 3-deazaguanine (c3G) were synthesized by use of N,N-diphenylcarbamoyl and N,N-dimethylaminomethylene as its base protecting groups to suppress sheared-type 5'-GA-3'/5'-GA-3' tandem mismatched base pairing which requires the N3 atom. These modified RNAs hybridized more weakly with the complementary and single mismatch-containing RNAs than the unmodified RNAs. The T(m) experiments were performed to clarify the effects of replacement of the fifth G with c(3)G on stabilization of 2'-O-methyl-(5'-CGGCGAGGAG-3')/5'-CUCCGAGCCG-3' and 2'-O-methyl-(5'-CGGGGACGAG-3')/5'-CUCGGACCCG-3'duplexes, which form sheared-type and face-to-face type 5'-GA-3'/5'-GA-3' tandem mismatched base pairs, respectively.