Summary information and primary citation
- PDB-id
-
132d;
SNAP-derived features in text and
JSON formats
- Class
- DNA
- Method
- NMR
- Summary
- Solution structure of the tn an DNA duplex gccgttaacggc
containing the hpa i restriction site
- Reference
-
Kim SG, Reid BR (1992): "Solution
structure of the TnAn DNA duplex GCCGTTAACGCG containing
the HpaI restriction site." Biochemistry,
31, 12103-12116. doi: 10.1021/bi00163a020.
- Abstract
- The solution structure of the self-complementary DNA
duplex [d(GCCGTTAACGGC)]2, which contains the HpaI
restriction site GTTAAC, has been elucidated by
two-dimensional NMR, distance geometry (DG), and NOE
back-calculation methods. Initial distance constraints were
determined by polynomial fitting the two-spin initial NOE
rates; backbone constraints from NOE and J-coupling
observations (Kim et al., 1992) were included. RMSDs
between initial-distance-refined structures derived from
random-embedded DG, A-DNA, and B-DNA starting structures
were all in the range 0.5-1.0 A, indicating good
convergence properties of the algorithm, regardless of the
starting structure. A semiautomatic back-calculation
refinement procedure was developed and used to generate
more refined structures for which the BKCALC-simulated NOE
volumes matched the experimental data. The six final
structures refined from various starting structures exhibit
very good agreement with the experimental data (R values =
0.18) and converge well to within 0.8-A RMSD differences
for the central 8 base pairs. The torsion and
pseudorotation phase angles were found to be well
determined by the data, and the local helical parameters
for each base step converged quite well. The final
structures show that the central T6-A7 step is somewhat
underwound (twist angle ca. 29 degrees), with a large
negative cup and a normal (wide) minor groove width, while
the T5-T6 and A7-A8 steps have a partially narrowed minor
groove.
