NMR studies for identification of dl:dG mismatch base-pairing structure in DNA | Zendy

Yasushi Oda | Zendy; Seiichi Uesugi | Zendy; Morio Ikehara | Zendy; Yasutoshi Kawase | Zendy; Eiko Ohtsuka | Zendy

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NMR studies for identification of dl:dG mismatch base-pairing structure in DNA

Author(s) -

Yasushi Oda,

Seiichi Uesugi,

Morio Ikehara,

Yasutoshi Kawase,

Eiko Ohtsuka

Publication year - 1991

Publication title -

nucleic acids research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 9.008

H-Index - 537

eISSN - 1362-4954

pISSN - 0305-1048

DOI - 10.1093/nar/19.19.5263

Subject(s) - base pair , duplex (building) , pairing , biology , dna , guanine , base (topology) , dna replication , stereochemistry , crystallography , biochemistry , nucleotide , chemistry , physics , gene , mathematical analysis , superconductivity , mathematics , quantum mechanics

One- and two-dimensional NMR experiments have been undertaken to investigate deoxyinosine:deoxyguanosine (dI:dG) base pairing in a self-complementary dodecadeoxyribonucleotide, d(C1-G2-C3-I4-A5-A6-T7-T8-G9-G10-G11-G12) (designated IG-12), duplex. The NMR data indicate formation of a dI(syn):dG(anti) base pair in a B-DNA helix. This unusual base pairing results in altered NOE patterns between the base protons (H8 and H2) of the I4 residue and the sugar protons of its own and the 5'-flanking C3 residues. The dI(syn):dG(anti) base pair is accommodated in the B-DNA duplex with only a subtle distortion of the local conformation. Identification of the dI:dG base pairing in this study confirms that a hypoxanthine base can form hydrogen-bonded base pairs with all of the four normal bases, C, A, T, and G, in DNA.

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