posted on 2016-01-25, 10:24authored byD. Theler, Cyril Dominguez, M. Blatter, J. Boudet, F. H. Allain
N(6)A methylation is the most abundant RNA modification occurring within messenger RNA. Impairment of methylase or demethylase functions are associated with severe phenotypes and diseases in several organisms. Beside writer and eraser enzymes of this dynamic RNA epigenetic modification, reader proteins that recognize this modification are involved in numerous cellular processes. Although the precise characterization of these reader proteins remains unknown, preliminary data showed that most potential reader proteins contained a conserved YT521-B homology (YTH) domain. Here we define the YTH domain of rat YT521-B as a N(6)-methylated adenosine reader domain and report its solution structure in complex with a N(6)-methylated RNA. The structure reveals a binding preference for NGANNN RNA hexamer and a deep hydrophobic cleft for m(6)A recognition. These findings establish a molecular function for YTH domains as m(6)A reader domains and should guide further studies into the biological functions of YTH-containing proteins in m(6)A recognition.
History
Citation
Nucleic Acids Research, 2014, 42 (22), pp. 13911-13919
Author affiliation
/Organisation/COLLEGE OF MEDICINE, BIOLOGICAL SCIENCES AND PSYCHOLOGY/MBSP Non-Medical Departments/Molecular & Cell Biology