Summary information and primary citation
- PDB-id
-
1b0s;
DSSR-derived features in text and
JSON formats
- Class
- DNA
- Method
- NMR
- Summary
- Binding of ar-1-144, a tri-imidazole DNA minor groove
binder, to ccgg sequence analyzed by NMR spectroscopy
- Reference
-
Yang XL, Kaenzig C, Lee M, Wang AH (1999): "Binding of
AR-1-144, a tri-imidazole DNA minor groove binder, to
CCGG sequence analyzed by NMR spectroscopy."
Eur.J.Biochem., 263, 646-655.
doi: 10.1046/j.1432-1327.1999.00515.x.
- Abstract
- The interactions of
N-[2-(dimethylamino)ethyl]-1-methyl-4-[1-methyl-4-[4-formamido-1-meth
ylimidazole-2-carboxamido]imidazole-2-carboxamido]imidazole-2-c
arboxa mide (AR-1-144), a tri-imidazole polyamide minor
groove binder, with DNA have been investigated by NMR and
CD spectroscopy. A series of DNA oligonucleotides with a
C/G-containing four-bp core, i.e. CCGG, CGCG, GGCC, and
GCGC, have been titrated with AR-1-144 at different ratios.
AR-1-144 favors the CCGG sequence. The flanking sequence of
the CCGG core also influences the binding preference, with
a C or T being favored on the 3'-side of the CCGG core. The
three-dimensional structure of the symmetric 2:1
side-by-side complex of AR-1-144 and GAACCGGTTC, determined
by NOE-constrained NMR refinement, reveals that each
AR-1-144 binds to four base pairs, i.e. at C5-G6-G7-T8,
with every amide-imidazole unit forming two potential
hydrogen bonds with DNA. The same DNA binding preference of
AR-1-144 was also confirmed by circular dichroism
spectroscopy, indicating that the DNA binding preference of
AR-1-144 is independent of concentration. The cooperative
binding of an AR-1-144 homodimer to the
(purine)CCGG(pyrimidine) core sequence appears to be weaker
than that of the distamycin A homodimer to A/T sequences,
most likely due to the diminished hydrophobic interactions
between AR-1-144 and DNA. Our results are consistent with
previous footprinting data and explain the binding pattern
found in the crystal structure of a di-imidazole drug bound
to CATGGCCATG.
