Hybrid Oligomer of Cyclonucleotides and Deoxynucleotides. A High Anti Left-handed Double Helical DNA Structure

Abstract

It has been shown by us that oligonucleotides containing cyclonucleosides with a high anti glycosidic conformation take left-handed, single and double helical structures (S. Uesugi, J. Yano, E. Yano and M. Ikehara, J. Am. Chem. Soc. 99, 2313 (1977) and references therein). In order to see whether DNA can adopt the high anti left-handed double helical structure or not, a self-complementary hexanucleotide containing 6,2′-O-cyclocytidine (C^○), 8,2′-O-cyclo- guanosine (G^○), deoxycytidine and deoxyguanosine, C^○G^{○dCdGC ○}G^○, was synthesized. Corresponding hexanucleotide containing only cyclonucleosides, C^○G^○C^○G^○C^○G^○, was also synthesized. Their conformation was examined by UV, CD and ¹H NMR spectroscopy. C^○G^○C^○G^○C^○G^○ forms an unusually stable, left-handed duplex. Imino proton NMR spectra and the results of nuclear Overhauser effect experiments strongly suggest that C^○G^○dCdGC^○G^○ take a left-handed double helical structure where the deoxynucleoside residues are involved in hydrogen bonding and take a high anti glycosidic conformation. Thus it is revealed that DNA could form a high anti, left-handed double helix which is different from that of Z-DNA under some constrained conditions.