Characterization of a DCL2-Insensitive Isolate Infecting .
Fiche publication
Date publication
octobre 2020
Journal
Viruses
Auteurs
Membres identifiés du Cancéropôle Est :
Dr ERHARDT Mathieu
Tous les auteurs :
Incarbone M, Scheer H, Hily JM, Kuhn L, Erhardt M, Dunoyer P, Altenbach D, Ritzenthaler C
Lien Pubmed
Résumé
(TBSV), the type member of the genus in the family is one of the best studied plant viruses. The TBSV natural and experimental host range covers a wide spectrum of plants including agricultural crops, ornamentals, vegetables and . However, , the well-established model organism in plant biology, genetics and plant-microbe interactions is absent from the list of known TBSV host plant species. Most of our recent knowledge of the virus life cycle has emanated from studies in , a surrogate host for TBSV that lacks crucial plant antiviral mechanisms such as RNA interference (RNAi). Here, we identified and characterized a TBSV isolate able to infect with high efficiency. We demonstrated by confocal and 3D electron microscopy that in TBSV-BS3Ng replicates in association with clustered peroxisomes in which numerous spherules are induced. A dsRNA-centered immunoprecipitation analysis allowed the identification of TBSV-associated host components including DRB2 and DRB4, which perfectly localized to replication sites, and NFD2 that accumulated in larger viral factories in which peroxisomes cluster. By challenging knock-out mutants for key RNAi factors, we showed that TBSV-BS3Ng undergoes a non-canonical RNAi defensive reaction. In fact, unlike other RNA viruses described, no 22nt TBSV-derived small RNA are detected in the absence of DCL4, indicating that this virus is DCL2-insensitive. The new TBSV-BS3Ng pathosystem should provide a valuable new model for dissecting plant-virus interactions in complement to .
Mots clés
Arabidopsis, Tomato bushy stunt virus
Référence
Viruses. 2020 Oct 2;12(10):