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PDBsum entry 2o7x
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References listed in PDB file
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Key reference
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Title
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Dna oligonucleotides with a, T, G or c opposite an abasic site: structure and dynamics.
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Authors
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J.Chen,
F.Y.Dupradeau,
D.A.Case,
C.J.Turner,
J.Stubbe.
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Ref.
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Nucleic Acids Res, 2008,
36,
253-262.
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PubMed id
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Abstract
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Abasic sites are common DNA lesions resulting from spontaneous depurination and
excision of damaged nucleobases by DNA repair enzymes. However, the influence of
the local sequence context on the structure of the abasic site and ultimately,
its recognition and repair, remains elusive. In the present study, duplex DNAs
with three different bases (G, C or T) opposite an abasic site have been
synthesized in the same sequence context (5'-CCA AAG6 XA8C CGG G-3', where X
denotes the abasic site) and characterized by 2D NMR spectroscopy. Studies on a
duplex DNA with an A opposite the abasic site in the same sequence has recently
been reported [Chen,J., Dupradeau,F.-Y., Case,D.A., Turner,C.J. and Stubbe,J.
(2007) Nuclear magnetic resonance structural studies and molecular modeling of
duplex DNA containing normal and 4'-oxidized abasic sites. Biochemistry, 46,
3096-3107]. Molecular modeling based on NMR-derived distance and dihedral angle
restraints and molecular dynamics calculations have been applied to determine
structural models and conformational flexibility of each duplex. The results
indicate that all four duplexes adopt an overall B-form conformation with each
unpaired base stacked between adjacent bases intrahelically. The conformation
around the abasic site is more perturbed when the base opposite to the lesion is
a pyrimidine (C or T) than a purine (G or A). In both the former cases, the
neighboring base pairs (G6-C21 and A8-T19) are closer to each other than those
in B-form DNA. Molecular dynamics simulations reveal that transient H-bond
interactions between the unpaired pyrimidine (C20 or T20) and the base 3' to the
abasic site play an important role in perturbing the local conformation. These
results provide structural insight into the dynamics of abasic sites that are
intrinsically modulated by the bases opposite the abasic site.
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Headers
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