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Title: The detailed structure of tandem G.A mismatched base-pair motifs in RNA duplexes is context dependent. Author: Heus HA, Wijmenga SS, Hoppe H, Hilbers CW. Journal: J Mol Biol; 1997 Aug 08; 271(1):147-58. PubMed ID: 9300061. Abstract: The solution structure of the RNA duplex (rGGGCUGAAGCCCU), containing tandem G.A mismatches has been determined by NMR spectroscopy and restrained molecular dynamics. A homonuclear 3D TOCSY-NOESY was used to derive 18 to 30 distance restraints per nucleotide, as well as all gamma torsion angles and sugar puckers for the central UGAA part of the molecule. Using these constraints, together with cross-strand distances, involving exchangeable imino protons, and essentially all other torsion angles that can accurately be determined (i.e. beta, epsilon) otherwise, the structure of the UGAA domain could be determined with high precision (r.m.s.d. 0.62 A), without the aid of isotopically enriched RNA. The G.A base-pairs are of the sheared pairing type, with both nucleotides in the anti conformation, and hydrogen bonds between the guanine 2-amino and the adenine N7 and between the guanine N3 and the adenine 6-amino. Surprisingly the sugar of the guanosine of the G.A. mismatch adopts a 2'-endo sugar pucker conformation. Comparison with other RNA structures, in which two such G.A base-pairs are formed reveals that this detailed structure depends on the identity of the base 5' to the guanosine in the tandem G.A base-pairs. A geometrical model for the incorporation of sheared tandem G.A base-pairs in A-form helices is formulated, which explains the distinct different stacking properties and helical parameters in sequences containing tandem, sheared G.A base-pairs.[Abstract] [Full Text] [Related] [New Search]