New sequential-assignment routes of nucleic acid NMR signals using a [5'-(13)C]-labeled DNA dodecamer

NMR signal assignments for DNA oligomers have been performed by the well-established sequential assignment procedures based on NOESY and COSY. The H4'/H5'/H5' resonance region is congested and difficult to analyze without the use of isotope-labeled DNA oligomers. Here a DNA dodecamer constructed with 2'-deoxy5'-(13)C]ribonucleotides, 5'-d(*C*G*C*G*A*A*T*T*C*G*CG)-3' (*N = 5'-(13)C]Nucleotide), was prepared in an effort to analyze the H4'/H5'/H5' resonance region by 2D 1H-13C HMQC-NOESY. In the C5' and H1' resonance region, weak and strong cross peaks for C5'(i)-H1'(i) and C5'(i)-H1'(i-1), respectively, were found, thus enabling the sequential assignment within this region. A similar sequential assignment route was found between C5' and H2'. Proton pair distances evaluated from the canonical B-DNA as well as A-DNA indicated that these sequential-assignment routes on a 2D 1H-13C HMQC-NOESY spectrum work for most nucleic acid stem regions.