Long-Range Charge Transfer through DNA by Replacing Adenine with Diaminopurine

Kiyohiko Kawai; Haruka Kodera; Tetsuro Majima

doi:10.1021/ja907409z

論文・著書情報

タイトル

和文:	Long-Range Charge Transfer through DNA by Replacing Adenine with Diaminopurine
英文:	Long-Range Charge Transfer through DNA by Replacing Adenine with Diaminopurine

著者

和文:	Kiyohiko Kawai, Haruka Kodera, Tetsuro Majima.
英文:	Kiyohiko Kawai, Haruka Kodera, Tetsuro Majima.

言語

English

掲載誌/書名

和文:	Journal of the American Chemical Society
英文:	Journal of the American Chemical Society

巻, 号, ページ

Vol. 132 No. 2 pp. 627-630

出版年月

2010年

出版者

和文:	American Chemical Society
英文:	American Chemical Society

会議名称

和文:
英文:

開催地

和文:
英文:

DOI

https://doi.org/10.1021/ja907409z

アブストラクト

A pos. charge migrates along DNA mainly via a series of short-range charge transfer (CT) processes between G-C base pairs, which have relatively high HOMO levels. As such, the CT efficiency sharply decreases with the insertion of A-T base pairs between the G-C base pairs. We have previously demonstrated that the CT efficiency through DNA can be dramatically increased by using deazaadenine (Z), an analog of A, to adjust the HOMO levels of the A-T base pairs closer to those of the G-C base pairs (Nat. Chem. 2009, 1, 156). In the present study, we have expanded this approach to show that the CT efficiency can also be increased by replacing A bases with diaminopurine (D).

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