First insights into the structural features of Ebola virus methyltransferase activities.

The Ebola virus is a deadly human pathogen responsible for several outbreaks in Africa. Its genome encodes the 'large' L protein, an essential enzyme that has polymerase, capping and methyltransferase activities. The methyltransferase activity leads to RNA co-transcriptional modifications at the N7 position of the cap structure and at the 2'-O position of the first transcribed nucleotide. Unlike other Mononegavirales viruses, the Ebola virus methyltransferase also catalyses 2'-O-methylation of adenosines located within the RNA sequences. Herein, we report the crystal structure at 1.8 A resolution of the Ebola virus methyltransferase domain bound to a fragment of a camelid single-chain antibody. We identified structural determinants and key amino acids specifically involved in the internal adenosine-2'-O-methylation from cap-related methylations. These results provide the first high resolution structure of an ebolavirus L protein domain, and the framework to investigate the effects of epitranscriptomic modifications and to design possible antiviral drugs against the Filoviridae family.