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PDBsum entry 146d
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References listed in PDB file
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Key reference
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Title
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Solution structure of the mithramycin dimer-Dna complex.
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Authors
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M.Sastry,
D.J.Patel.
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Ref.
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Biochemistry, 1993,
32,
6588-6604.
[DOI no: ]
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PubMed id
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Abstract
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We have characterized the NMR parameters for the complexes formed by the
Mg(2+)-coordinated mithramycin dimer with self-complementary d(T-G-G-C-C-A) and
d(T-C-G-C-G-A) duplexes. The solution structure of the latter complex has been
determined using a combined NMR-molecular dynamics study including relaxation
matrix refinement. The Mg(2+)-coordinated mithramycin dimer-d(T-C-G-C-G-A)
complex exhibits a 2-fold center of symmetry with the divalent cation
coordinated aglycons positioned opposite the central (G3-C4).(G3-C4) segment
such that the aglycon C8 hydroxyl oxygens form symmetrical sequence-specific
hydrogen bonds to guanine amino protons in the complex. The C-D-E trisaccharide
segments of each monomer in the mithramycin dimer adopt extended conformations,
are positioned inside the minor groove, and are directed toward either end of
the duplex. The C-D saccharide component of one monomer and the aglycon of the
other monomer in the mithramycin dimer share a widened minor groove with the
hydrophobic edges of the C and D sugars interacting with individual strands of
the duplex. The E-sugar ring is positioned in the floor of the minor groove, and
its hydroxyl-bearing face interacts with both strands of the duplex through
hydrogen-bonding and hydrophobic intermolecular interactions. The A-B
disaccharide and the hydrophilic side chain form intermolecular contacts with
the sugar-phosphate backbone in the complex. The antiparallel alignment of
divalent cation coordinated monomers in the mithramycin dimer results in the two
outwardly directed C-D-E trisaccharide segments generating a right-handed
continuous hexasaccharide domain that spans six base pairs in the minor groove
of the duplex. The solution structure of the mithramycin dimer-DNA complex
reported in this study and the solution structure of the chromomycin dimer-DNA
complex reported previously [Gao, X., Mirau, P., & Patel, D. J. (1992) J.
Mol. Biol. 223, 259-279] show global similarities, as well as local differences
that are of interest. All four nucleotides in the tetranucleotide segment of the
duplex centered about the sequence-specific (G-C).(G-C) step adopt A-DNA sugar
puckers and glycosidic torsion angles in the chromomycin dimer-DNA complex,
while only the central cytidine adopts an A-DNA sugar pucker and glycosidic
torsion angle in the mithramycin dimer-DNA complex.(ABSTRACT TRUNCATED AT 400
WORDS)
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Headers
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