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PDBsum entry 1be5
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References listed in PDB file
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Key reference
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Title
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Structural studies of a stable parallel-Stranded DNA duplex incorporating isoguanine:cytosine and isocytosine:guanine basepairs by nuclear magnetic resonance spectroscopy.
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Authors
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X.L.Yang,
H.Sugiyama,
S.Ikeda,
I.Saito,
A.H.Wang.
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Ref.
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Biophys J, 1998,
75,
1163-1171.
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PubMed id
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Note In the PDB file this reference is
annotated as "TO BE PUBLISHED".
The citation details given above were identified by an automated
search of PubMed on title and author
names, giving a
percentage match of
75%.
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Abstract
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Isoguanine (2-hydroxyladenine) is a product of oxidative damage to DNA and has
been shown to cause mutation. It is also a potent inducer of parallel-stranded
DNA duplex structure. The structure of the parallel-stranded DNA duplex
(PS-duplex) 5'-d(TiGiCAiCiGiGAiCT) + 5'-d(ACGTGCCTGA), containing the isoguanine
(iG) and 5-methyl-isocytosine (iC) bases, has been determined by NMR refinement.
All imino protons associated with the iG:C, G:iC, and A:T (except the two
terminal A:T) basepairs are observed at 2 degrees C, consistent with the
formation of a stable duplex suggested by the earlier Tm measurements [Sugiyama,
H., S. Ikeda, and I. Saito. 1996. J. Am. Chem. Soc. 118:9994-9995]. All
basepairs are in the reverse Watson-Crick configuration. The structural
characteristics of the refined PS-duplex are different from those of B-DNA. The
PS duplex has two grooves with similar width (7.0 A) and depth (7.7 A), in
contrast to the two distinct grooves (major groove width 11.7 A, depth 8.5 A,
and minor groove width 5.7 A, depth 7.5 A) of B-DNA. The resonances of the amino
protons of iG and C are clearly resolved and observable, but those of the G and
iC are very broad and difficult to observe. Several intercalators with different
complexities, including ethidium, daunorubicin, and nogalamycin, have been used
to probe the flexibility of the backbone of the (iG, iC)-containing PS-duplex.
All of them produce drug-induced UV/vis spectra identical to their respective
spectra when bound to B-DNA, suggesting that those drugs bind to the (iG,
iC)-containing PS-duplex using similar intercalation processes. The results may
be useful in the design of intercalator-conjugated oligonucleotides for
antisense applications. The study presented in this paper augments our
understanding of a growing number of parallel-stranded DNA structures, including
the G-quartet, the i-motif, and the unusual homo basepaired parallel-stranded
double helix. Their possible relevance is discussed.
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Headers
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