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PDBsum entry 182d
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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-Nogalamycin interactions: the crystal structure of d(tgatca) complexed with nogalamycin.
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Authors
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C.K.Smith,
G.J.Davies,
E.J.Dodson,
M.H.Moore.
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Ref.
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Biochemistry, 1995,
34,
415-425.
[DOI no: ]
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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
perfect match.
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Abstract
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The structure of the self-complementary deoxyoligonucleotide d5'(TGATCA)
complexed with nogalamycin, an antitumor anthracycline, has been solved to 1.8 A
resolution using X-ray crystallographic methods. The technique of single
isomorphous replacement, utilizing the anomalous signal of bromine in derivative
data collected at three different wavelengths, Cu K alpha, Mo K alpha, and 0.91
A synchroton radiation, was used. The complex crystallized in space group
P4(1)2(1)2 with unit cell dimensions a = 37.2 A and c = 70.1 A. The final
structure including 116 water molecules has an overall R factor of 19.5% for the
4767 reflections with F > or = 1 sigma F in the resolution range 10.0-1.8 A.
One nogalamycin molecule intercalates between each of the d5'(TpG) steps at both
ends of a distorted B DNA double helix. This structure provides the first
three-dimensional picture of nogalamycin bound to the triplet sequence d5'(TGA),
one of its favorable natural binding sites. The drug exhibits a strict
requirement for binding to the 3' side of a pyrimidine and the 5' side of a
purine. Nogalamycin has bulky sugar groups at either end of a planar aglycon
chromophore; therefore, in order for intercalation to occur, the DNA must either
transiently open or flex along the helix axis to allow insertion of the
chromophore between the base pairs. Conformational change in nogalamycin is
observed in the drug-DNA complex with respect to free nogalamycin. Nogalamycin
binding to DNA induces severe deformation to the intercalation site base pairs.
In comparison to previously reported anthracycline-DNA structures significant
differences in base-pair geometry, drug hydrogen-bonding patterns, and the
extent of hydration are observed. The position of the drug in this complex is
stabilized by a number of nonbonded forces including van der Waals interactions
and extensive direct and solvent-mediated hydrogen bonds to the DNA duplex.
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Headers
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