Unusual conformation of a 3'-thioformacetal linkage in a DNA duplex
The DNA.DNA duplex d(CGCGTTSCH2OTTGCGC).d(GCGCAAAACGCG) (designated duplex III) containing a 3'-thioformacetal (3'-TFMA) linkage in the center of the sequence was characterized in detail by two- and three-dimensional homonuclear NMR spectroscopy. The NMR results were analyzed and compared...
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Published in | Journal of biomolecular NMR Vol. 4; no. 1; p. 17 |
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Main Authors | , |
Format | Journal Article |
Language | English |
Published |
Netherlands
01.01.1994
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Subjects | |
Online Access | Get more information |
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Summary: | The DNA.DNA duplex d(CGCGTTSCH2OTTGCGC).d(GCGCAAAACGCG) (designated duplex III) containing a 3'-thioformacetal (3'-TFMA) linkage in the center of the sequence was characterized in detail by two- and three-dimensional homonuclear NMR spectroscopy. The NMR results were analyzed and compared with those of two duplexes of the same sequence: One is an unmodified reference sequence and the other contains a formacetal (OCH2O) linkage at the central T--T step (designated duplex I and duplex II, respectively). In general, the NMR spectra of duplex III closely resemble those of the analogous duplexes I and II, suggesting an overall B-type structure adopted by the 3'-TFMA-modified duplex III. Nonetheless, the detection of several distinct spectral features originating from the protons at the T6(3'-SCH2O)T7 modification site is indicative of a local conformation that is clearly different from the corresponding region in duplexes I and II. The 3'-thioformacetal linker, in contrast to the formacetal (FMA) linkage, cannot be accommodated in a conformation usually found in natural nucleic acid duplexes. As a consequence, the 3'-TFMA-modified T6 sugar adopts an O4'-endo form (an intermediate structure between the usual C2'-endo and C3'-endo forms). This change is accompanied by a change in the epsilon (C4'-C3'-S3'-CH2) dihedral angle and by subsequent adjustments of other torsion angles along the backbone. Notably, this conformational readjustment at the T6-T7 backbone linkage is localized; its collective result has negligible effect on base-base stacking of the T6 and T7 residues. A close examination of the COSY data in all three duplexes reveals a subtle variation in sugar geometry, with more S-type character adopted by the modified duplexes II and III. The results of this study illustrate that, although the difference between FMA and 3'-TFMA linkages is merely in the substitution of the T6(O3') in the former by a sulfur atom in the latter, the stereoelectronic difference in a single atom can induce significant local structural distortion in an otherwise well-structured oligonucleotide duplex. |
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ISSN: | 0925-2738 |
DOI: | 10.1007/BF00178333 |