Summary information and primary citation
- PDB-id
-
2ll9;
DSSR-derived features in text and
JSON formats
- Class
- DNA
- Method
- NMR
- Summary
- Solution structure of a DNA containing a
thymime-thymine mismatch
- Reference
-
Jourdan M, Granzhan A, Guillot R, Dumy P, Teulade-Fichou
MP (2012): "Double
threading through DNA: NMR structural study of a
bis-naphthalene macrocycle bound to a thymine-thymine
mismatch." Nucleic Acids Res.,
40, 5115-5128. doi: 10.1093/nar/gks067.
- Abstract
- The macrocyclic bis-naphthalene macrocycle (2,7-BisNP),
belonging to the cyclobisintercalator family of DNA
ligands, recognizes T-T mismatch sites in duplex DNA with
high affinity and selectivity, as evidenced by thermal
denaturation experiments and NMR titrations. The binding of
this macrocycle to an 11-mer DNA oligonucleotide containing
a T-T mismatch was studied using NMR spectroscopy and
NMR-restrained molecular modeling. The ligand forms a
single type of complex with the DNA, in which one of the
naphthalene rings of the ligand occupies the place of one
of the mismatched thymines, which is flipped out of the
duplex. The second naphthalene unit of the ligand
intercalates at the A-T base pair flanking the mismatch
site, leading to encapsulation of its thymine residue via
double stacking. The polyammonium linking chains of the
macrocycle are located in the minor and the major grooves
of the oligonucleotide and participate in the stabilization
of the complex by formation of hydrogen bonds with the
encapsulated thymine base and the mismatched thymine
remaining inside the helix. The study highlights the
uniqueness of this cyclobisintercalation binding mode and
its importance for recognition of DNA lesion sites by small
molecules.
