Specificity of RNA–RNA helix recognition
AUTOR(ES)
Battle, Daniel J.
FONTE
The National Academy of Sciences
RESUMO
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.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=129328Documentos Relacionados
- Genetic analysis of equine rotavirus by RNA-RNA hybridization.
- In vivo RNA-RNA recombination of coronavirus in mouse brain.
- In vitro RNA-RNA splicing in adenovirus 2 mRNA formation.
- Comparison of 6/94 Virus and Sendai Virus RNA by RNA-RNA Hybridization
- Evidence for RNA-RNA cross-link formation in Escherichia coli ribosomes.
