Impact of C5-cytosine methylation on the solution structure of d(GAAAACGTTTTC) sub(2). An NMR and molecular modelling investigation

Impact of C5-cytosine methylation on the solution structure of d(GAAAACGTTTTC) sub(2). An NMR and molecular modelling investigation

The solution structures of d(GAAAACGTTTTC) sub(2) and of its methylated derivative d(GAAAAMe super(5)CGTTTTC) sub(2) have been determined by NMR and molecular modelling in order to examine the impact of cytosine methylation on the central CpG conformation. Detailed super(1)H NMR and super(31)P NMR i...

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Bibliographic Details
Published in:European journal of biochemistry Vol. 265; no. 3; pp. 1032 - 1042
Main Authors: Marcourt, L, Cordier, C, Couesnon, T, Dodin, G
Format: Journal Article
Language:English
Published: 01-11-1999
Subjects:
cytosine
oligonucleotides
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Summary:The solution structures of d(GAAAACGTTTTC) sub(2) and of its methylated derivative d(GAAAAMe super(5)CGTTTTC) sub(2) have been determined by NMR and molecular modelling in order to examine the impact of cytosine methylation on the central CpG conformation. Detailed super(1)H NMR and super(31)P NMR investigation of the two oligomers includes quantitative NOESY, 2D homonuclear Hartmann-Hahn spectroscopy, double-quantum-filtered COSY and heteronuclear super(1)H- super(31)P correlation. Back-calculations of NOESY spectra and simulations of double-quantum-filtered COSY patterns were performed to gain accurate information on interproton distances and sugar phase angles. Molecular models under experimental constraints were generated by energy minimization by means of the molecular mechanics program JUMNA. The MORASS software was used to iteratively refine the structures obtained. After methylation, the oligomer still has a B-DNA conformation. However, there are differences in the structural parameters and the thermal stability as compared to the unmethylated molecule. Careful structural analysis shows that after methylation CpG departs from the usual conformation observed in other ACGT tetramers with different surroundings. Subtle displacements of bases, sugars and backbone imposed by the steric interaction of the two methyl groups inside the major groove are accompanied by severe pinching of the minor groove at the C-G residues.
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ISSN:0014-2956
DOI:10.1046/j.1432-1327.1999.00819.x