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Publication Abstract from PubMed

The helical junction region of a -1 frameshift stimulating hairpin-type mRNA pseudoknot from sugarcane yellow leaf virus (ScYLV) is characterized by a novel C27.(G7-C14) loop 2-stem 1 minor groove base triple, which is stacked on a C8+.(G12-C28) loop 1-stem 2 major groove base triple. Substitution of C27 with adenosine reduces frameshifting efficiency to a level just twofold above the slip-site alone. Here, we show that the global structure of the C27A ScYLV RNA is nearly indistinguishable from the wild-type counterpart, despite the fact that the helical junction region is altered and incorporates the anticipated isostructural A27.(G7-C14) minor groove base triple. This interaction mediates a 2.3-A displacement of C8+ driven by an A27 N6-C8+ O2 hydrogen bond as part of an A(n-1).C+.G-Cn base quadruple. The helical junction regions of the C27A ScYLV and the beet western yellows virus (BWYV) pseudoknots are essentially superimposable, the latter of which contains an analogous A25.(G7-C14) minor groove base triple. These results reveal that the global ground-state structure is not strongly correlated with frameshift stimulation and point to a reduced thermodynamic stability and/or enhanced kinetic lability that derives from an altered helical junction architecture in the C27A ScYLV RNA as a significant determinant for setting frameshifting efficiencies in plant luteoviral mRNA pseudoknots.

The global structures of a wild-type and poorly functional plant luteoviral mRNA pseudoknot are essentially identical.,Cornish PV, Stammler SN, Giedroc DP RNA. 2006 Nov;12(11):1959-69. Epub 2006 Sep 25. PMID:17000902^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.