Nibedita, R. ; Ajay Kumar, R. ; Majumdar, A. ; Hosur, R. V. ; Govil, Girjesh ; Majumder, K. ; Chauhan, V. S. (1993) Solution structure of GCCAAT recognition motif by 2D NMR, spectral simulation, molecular modeling, and distance geometry calculations Biochemistry, 32 (35). pp. 9053-9064. ISSN 0006-2960
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Official URL: http://pubs.acs.org/doi/abs/10.1021/bi00086a010
Related URL: http://dx.doi.org/10.1021/bi00086a010
Abstract
Solution conformation of a self-complementary 14-mer DNA duplex (d-GGATTGGCCAATCC) containing the GCCAAT recognition motif of several transcription factors has been investigated by NMR spectroscopy. Complete resonance assignment of all the protons (except H5',H5" protons) has been obtained following standard procedures based on two-dimensional NMR techniques. Three-bond coupling constants have been determined by spectral simulation procedures. New strategies have been described and employed for quantifying NOE intensities from the structural point of view. Approximate ranges of gamma torsion angles have been obtained from a selective NOESY experiment, by estimating the J(4'-5'), J(4'-5"), or their sum in the H1'-H4' cross peaks of the spectrum. Likewise, ranges of epsilon torsion angles have been obtained by monitoring the H3' multiplicities in the H8/H6-H3' cross peaks in selective NOESY spectra. With the help of such a total of 73 coupling constraints, 79 NOE intensity constraints, and 108 H-bond constraints, model building has been carried out to obtain a structure which satisfies the constraints. Starting from such a structure, an expanded distance constraint set has been created which has been used for the distance geometry calculations using the program TANDY. In the best structure thus derived, interesting irregularities similar to a BI-BII transition have been observed in the center. The molecule exhibits a bend. The overall base stacking is different from that in either B- or A-DNA models. The base pairs are tilted with respect to the local helix axes. The observed structural features are likely to have important implications for the recognition mechanism of the GCCAAT motif.
Item Type: | Article |
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Source: | Copyright of this article belongs to American Chemical Society. |
ID Code: | 8249 |
Deposited On: | 26 Oct 2010 12:01 |
Last Modified: | 30 May 2011 11:31 |
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