@article{,
title = {The multiple flavors of GoU pairs in RNA},
author = {E Westhof and M Yusupov and G Yusupova},
url = {https://www.ncbi.nlm.nih.gov/pubmed/31033092?dopt=Abstract},
doi = {10.1002/jmr.2782},
isbn = {31033092},
year = {2019},
date = {2019-01-01},
journal = {J Mol Recognit},
pages = {e2782},
abstract = {Wobble GU pairs (or GoU) occur frequently within double-stranded RNA helices interspersed within the standard G═C and A─U Watson-Crick pairs. However, other types of GoU pairs interacting on their Watson-Crick edges have been observed. The structural and functional roles of such alternative GoU pairs are surprisingly diverse and reflect the various pairings G and U can form by exploiting all the subtleties of their electronic configurations. Here, the structural characteristics of the GoU pairs are updated following the recent crystallographic structures of functional ribosomal complexes and the development in our understanding of ribosomal translation.},
keywords = {GoU pair anticodon codon mRNA miscoding ribosome tRNA tautomer, Unité ARN, WESTHOF},
pubstate = {published},
tppubtype = {article}
}
Wobble GU pairs (or GoU) occur frequently within double-stranded RNA helices interspersed within the standard G═C and A─U Watson-Crick pairs. However, other types of GoU pairs interacting on their Watson-Crick edges have been observed. The structural and functional roles of such alternative GoU pairs are surprisingly diverse and reflect the various pairings G and U can form by exploiting all the subtleties of their electronic configurations. Here, the structural characteristics of the GoU pairs are updated following the recent crystallographic structures of functional ribosomal complexes and the development in our understanding of ribosomal translation.