Compensating bends in a 16-base-pair DNA oligomer containing a T3A3 segment:: A NMR study of global DNA curvature

In-phase ligated DNA containing T(n)A(n) segments fail to exhibit the retarded polyacrylamide gel electrophoresis (PAGE) migration observed for in-phase ligated A(n)T(n) segments, a behavior thought to be correlated with macroscopic DNA curvature. The lack of macroscopic curvature in ligated T(n)A(n) segments is thought to be due to cancellation of bending in regions flanking the TpA steps. To address this issue, solution-state NMR, including residual dipolar coupling (RDC) restraints, was used to determine a high-resolution structure of [d(CGAGGTTTAAACCTCG)(2)], a DNA oligomer containing a T(3)A(3) tract. The overall magnitude and direction of bending, including the regions flanking the central TpA step, was measured using a radius of curvature, R-c, analysis. The R-c for the overall molecule indicated a small magnitude of global bending (R-c = 138 +/- 23 nm) towards the major groove, whereas the R-c for the two halves (72 +/- 33 nm and 69 +/- 14 nm) indicated greater localized bending into the minor groove. The direction of bending in the regions flanking the TpA step is in partial opposition (109degrees), contributing to cancellation of bending. The cancellation of bending did not correlate with a pattern of roll values at the TpA step, or at the 5' and 3' junctions, of the T(3)A(3) segment, suggesting a simple junction/roll model is insufficient to predict cancellation of DNA bending in all T(n)A(n) junction sequence contexts. Importantly, R-c analysis of structures refined without RDC restraints lacked the precision and accuracy needed to reliably measure bending. (C) 2004 Wiley Periodicals, Inc.