X-Ray analyses of two DNA dodecamers containing N4-methoxy-cytosine paired with adenine or guanine | Zendy

Muhammad Tofazzal Hossain | Zendy; Takaaki Hikima | Zendy; M. Tsunoda | Zendy; Toshiyuki Chatake | Zendy; Yoshihito Ueno | Zendy; Akira Matsuda | Zendy; Atsushi Takenaka | Zendy

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X-Ray analyses of two DNA dodecamers containing N4-methoxy-cytosine paired with adenine or guanine

Author(s) -

Muhammad Tofazzal Hossain,

Takaaki Hikima,

M. Tsunoda,

Toshiyuki Chatake,

Yoshihito Ueno,

Akira Matsuda,

Atsushi Takenaka

Publication year - 2000

Publication title -

nucleic acids symposium series

Language(s) - English

Resource type - Journals

eISSN - 1746-8272

pISSN - 0261-3166

DOI - 10.1093/nass/44.1.239

Subject(s) - dodecameric protein , cytosine , guanine , stereochemistry , dna , chemistry , molecular structure of nucleic acids: a structure for deoxyribose nucleic acid , base pair , crystallography , nucleotide , biochemistry , gene

To investigate mismatch of base-pairings in relation to mutagenesis by oxyamines, crystal structures of two DNA dodecamers with the sequence d(CGCZAA TTmo4CGCG) (Z = A or G), containing N4-methoxy-cytosine (mo4C), have been determined by X-ray analysis. These dodecamers essentially form right-handed B-form duplexes, respectively. In the dodecamer with Z = A, the two mo4C residues are adapted in imino form with the anti methoxyl group to form pairs with A on the opposite strand in a manner of Watson-Crick fashion. While in the dodecamer with Z = G, one mo4C in amino form with the anti methoxyl group forms a normal Watson-Crick pair with G, but the other one in imino form with syn methoxyl conformation wobbles with G. Based on these results, possible mutation mechanism has been proposed.

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