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From Proteopedia
Structural Basis for Poor Uracil Excision from Hairpin DNA: NMR Study
Overview
Two-dimensional NMR and molecular dynamics simulations have been used to determine the three-dimensional structures of two hairpin DNA structures: d-CTAGAG GATCCUTTTGGATCCT (abbreviated as U1-hairpin) and d-CTAGAGGATCCTTUTGGATCCT (abbreviated as U3-hairpin). The 1H resonances of both of these hairpin structures have been assigned almost completely. NMR restrained molecular dynamics and energy minimization procedures have been used to describe the three-dimensional structures of these hairpins. This study and concurrent NMR structural studies on two other d-CTAGAGGA TCCTUTTGGATCCT (abbreviated as U2-hairpin) and d-CTAGAGGATCCTTTUGGATCCT (abbreviated as U4-hairpin) have shed light upon various interactions reported between Echerichia coli uracil DNA glycosylase (UDG) and uracil-containing DNA. The backbone torsion angles, which partially influence the local conformation of U12 and U14 in U1 and U3-hairpins, respectively, are probably locked in the trans conformation as in the case of U13 in the U2-hairpin. Such a stretched-out backbone conformation in the vicinity of U12 and U14 is thought to be the reason why the Km value is poor for U1- and U3-hairpins as it is for the U2-hairpin. Furthermore, the bases U12 and U14 in both U1- and U3-hairpins adopt an anti conformation, in contrast with the base conformation of U13 in the U2-hairpin, which adopts a syn conformation. The clear discrepancy observed in the U-base orientation with respect to the sugar moieties could explain why the Vmax value is 10- to 20-fold higher for the U1- and U3-hairpins compared with the U2-hairpin. Taken together, these observations support our interpretation that the unfavourable backbone results in a poor Km value, whereas the unfavourable nucleotide conformation results in a poor Vmax value. These two parameters therefore make the U1- and U3-hairpins better substrates for UDG compared with the U2-hairpin, as reported earlier [Kumar, N. V. & Varshney, U. (1997) Nucleic Acids Res. 25, 2336-2343.].
About this Structure
Full crystallographic information is available from OCA.
Reference
Structural basis for poor uracil excision from hairpin DNA. An NMR study., Ghosh M, Rumpal N, Varshney U, Chary KV, Eur J Biochem. 2002 Apr;269(7):1886-94. PMID:11952790 Page seeded by OCA on Fri May 2 20:01:32 2008
