1f6c
From Proteopedia
|
CRYSTAL STRUCTURE OF THE B-DNA HEXAMER GGCGCC WITH SPERMINE
Overview
Cytosine methylation or bromination of the DNA sequence d(GGCGCC)2 is shown here to induce a novel extended and eccentric double helix, which we call E-DNA. Like B-DNA, E-DNA has a long helical rise and bases perpendicular to the helix axis. However, the 3'-endo sugar conformation gives the characteristic deep major groove and shallow minor groove of A-DNA. Also, if allowed to crystallize for a period of time longer than that yielding E-DNA, the methylated sequence forms standard A-DNA, suggesting that E-DNA is a kinetically trapped intermediate in the transition to A-DNA. Thus, the structures presented here chart a crystallographic pathway from B-DNA to A-DNA through the E-DNA intermediate in a single sequence. The E-DNA surface is highly accessible to solvent, with waters in the major groove sitting on exposed faces of the stacked nucleotides. We suggest that the geometry of the waters and the stacked base pairs would promote the spontaneous deamination of 5-methylcytosine in the transition mutation of dm5C-dG to dT-dA base pairs.
About this Structure
1F6C is a Protein complex structure of sequences from [1] with as ligand. Full crystallographic information is available from OCA.
Reference
The extended and eccentric E-DNA structure induced by cytosine methylation or bromination., Vargason JM, Eichman BF, Ho PS, Nat Struct Biol. 2000 Sep;7(9):758-61. PMID:10966645
Page seeded by OCA on Thu Feb 21 12:35:19 2008
Categories: Protein complex | Eichman, B F. | Ho, P S. | Vargason, J M. | SPM | B-dna | Double helix | E-dna
