Masashi Inada scite author profile

Masashi Inada

2Publications

15Citation Statements Received

78Citation Statements Given

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Hokkaido University, Yokohama City University

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Unexpected A-form formation of 4′-thioDNA in solution, revealed by NMR, and the implications as to the mechanism of nuclease resistance

Matsugami

Ohyama

Inada

et al. 2008

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Fully modified 4′-thioDNA, an oligonucleotide only comprising 2′-deoxy-4′-thionucleosides, exhibited resistance to an endonuclease, in addition to preferable hybridization with RNA. Therefore, 4′-thioDNA is promising for application as a functional oligonucleotide. Fully modified 4′-thioDNA was found to behave like an RNA molecule, but no details of its structure beyond the results of circular dichroism analysis are available. Here, we have determined the structure of fully modified 4′-thioDNA with the sequence of d(CGCGAATTCGCG) by NMR. Most sugars take on the C3′-endo conformation. The major groove is narrow and deep, while the minor groove is wide and shallow. Thus, fully modified 4′-thioDNA takes on the A-form characteristic of RNA, both locally and globally. The only structure reported for 4′-thioDNA showed that partially modified 4′-thioDNA that contained some 2′-deoxy-4′-thionucleosides took on the B-form in the crystalline form. We have determined the structure of 4′-thioDNA in solution for the first time, and demonstrated unexpected differences between the two structures. The origin of the formation of the A-form is discussed. The remarkable biochemical properties reported for fully modified 4′-thioDNA, including nuclease-resistance, are rationalized in the light of the elucidated structure.

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Structure of 4'-thioDNA which exhibits endonuclease resistance

Matsugami

Ohyama

Inada

et al. 2007

Nucleic Acids Symposium Series

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4'-thio DNA consisting of 2'-deoxy-4'-thionucleosides exhibits resistance to both endonuclease and 3'-exonuclease cleavages. Interestingly, we found that 4'-thioDNA duplex behaved like RNA molecules in hybridization properties and structural aspects. Here, we have determined the structure of 4'-thioDNA duplex in solution by NMR. Most residues take on C3'-endosugar puckering, which is characteristic to A-form. The major groove of 4'-thioDNA duplex is narrow and deep, while the minor groove is wide and shallow. These features are also characteristic to A-form. Thus, although DNA duplex usually takes on B-form in solution, 4'-thioDNA takes on A-form, like RNA molecules. A-form-like groove features of 4'-thioDNA can account for the fact that 4'-thioDNA duplex interacts with an RNA major groove binder, but not with DNA groove binder. Interaction of 4'-thioDNA with RNase V1 and resistance to endonuclease may also be accounted for in the same context.

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Masashi Inada

Unexpected A-form formation of 4′-thioDNA in solution, revealed by NMR, and the implications as to the mechanism of nuclease resistance

Structure of 4'-thioDNA which exhibits endonuclease resistance

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