1l8v
From Proteopedia
Crystal Structure of a Mutant (C109G,G212C) P4-P6 Domain of the Group I Intron from Tetrahymena Thermophilia
Overview
Functional RNAs often form compact structures characterized by closely packed helices. Crystallographic analysis of several large RNAs revealed a prevalent interaction in which unpaired adenosine residues dock into the minor groove of a receptor helix. This A-minor motif, potentially the most important element responsible for global RNA architecture, has also been suggested to contribute to the fidelity of protein synthesis by discriminating against near-cognate tRNAs on the ribosome. The specificity of A-minor interactions is fundamental to RNA tertiary structure formation, as well as to their proposed role in translational accuracy. To investigate A-minor motif specificity, we analyzed mutations in an A-minor interaction within the Tetrahymena group I self-splicing intron. Thermodynamic and x-ray crystallographic results show that the A-minor interaction strongly prefers canonical base pairs over base mismatches in the receptor helix, enabling RNA interhelical packing through specific recognition of Watson-Crick minor groove geometry.
About this Structure
Full crystallographic information is available from OCA.
Reference
Specificity of RNA-RNA helix recognition., Battle DJ, Doudna JA, Proc Natl Acad Sci U S A. 2002 Sep 3;99(18):11676-81. Epub 2002 Aug 20. PMID:12189204 Page seeded by OCA on Fri May 2 23:40:38 2008
