Structural highlights
Publication Abstract from PubMed
Triple helices result from interaction between single- and double-stranded nucleic acids. Their formation is a possible mechanism for recombination of homologous gene sequences in nature and provides, inter alia, a basis for artificial control of gene activity. Triple-helix motifs have been extensively studied by a variety of techniques, but few high-resolution structural data are available. The only triplet structures characterized so far by X-ray diffraction were in protein-DNA complexes studied at about 3 A resolution. We report here the X-ray analysis of a DNA nonamer, d(GCGAATTCG), to a resolution of 2.05 A, in which the extended crystal structure contains (C.G)*G triplets as a fragment of triple helix. The guanosine-containing chains are in a parallel orientation. This arrangement is a necessary feature of models for homologous recombination which results ultimately in replacement of one length of DNA by another of similar sequence. The present-structure agrees with many published predictions of triplex organization, and provides an accurate representation of an element that allows sequence-specific association between single- and double-stranded nucleic acids.
High-resolution structure of a DNA helix forming (C.G)*G base triplets.,Van Meervelt L, Vlieghe D, Dautant A, Gallois B, Precigoux G, Kennard O Nature. 1995 Apr 20;374(6524):742-4. PMID:7715732[1]
From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.
References
- ↑ Van Meervelt L, Vlieghe D, Dautant A, Gallois B, Precigoux G, Kennard O. High-resolution structure of a DNA helix forming (C.G)*G base triplets. Nature. 1995 Apr 20;374(6524):742-4. PMID:7715732 doi:http://dx.doi.org/10.1038/374742a0
