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Paper | Special issue | Vol 101, No. 1, 2020, pp.284-297
Published online, 8th August, 2019
DOI: 10.3987/COM-19-S(F)24
Synthesis and Hybridizing Property of Oligonucleotides Including 2′-C,4′-C-Ethyleneoxy-Bridged 2′-Deoxyadenosine with an Exocyclic Methylene Unit

Takashi Osawa, Yoshinori Onishi, Sawako Wakita, Yuta Ito, and Yoshiyuki Hari*

*Faculty of Pharmaceutical Sciences, Tokushima Bunri University, Yamashiro-cho, Tokushima 770-8514, Japan

Abstract

2,4-Bridged nucleic acids (2,4-BNAs) are of interest because oligonucleotides that include them have excellent duplex-forming capability and high nuclease resistance compared to natural oligonucleotides. We have recently developed 2′-C,4′-C-ethyleneoxy-bridged thymidine with an exocyclic methylene unit (methylene-EoDNA-T) as a novel 2,4-BNA analog. Oligonucleotides that include methylene-EoDNA-T have marked hybridizing capability, nuclease resistance, and in vitro gene-silencing potency. In the present study, we designed and synthesized a 2-deoxyadenosine analog of methylene-EoDNA (methylene-EoDNA-A), and incorporated it into oligonucleotides. The results of melting temperature (Tm) analysis of duplexes formed from methylene-EoDNA-A-modified oligonucleotides indicated that the hybridizing capability with regard to complementary DNA was almost the same or slightly higher than that of natural DNA. Moreover, methylene-EoDNA-A:methylene-EoDNA-T base pairs increased the thermal stability of DNA duplexes compared to that of DNA duplexes containing methylene-EoDNA-A- or methylene-EoDNA-T-modification in one strand.