Complete Sequence, Genome Organization and Molecular Detection of Grapevine Line Pattern Virus, a New Putative Anulavirus Infecting Grapevine
Toufic Elbeaino,
Levente Kontra,
Emese Demian,
Nikoletta Jaksa-Czotter,
Amani Ben Slimen,
Richard Fabian,
Janos Lazar,
Lucie Tamisier,
Michele Digiaro,
Sebastien Massart,
Eva Varallyay
Affiliations
Toufic Elbeaino
Istituto Agronomico Mediterraneo di Bari, Via Ceglie 9, 70010 Valenzano, BA, Italy
Levente Kontra
Agriculture Biotechnology Research Institute, National Research and Innovation Center, Szent-Gyorgyi A street4, 2100 Godollo, Hungary
Emese Demian
Agriculture Biotechnology Research Institute, National Research and Innovation Center, Szent-Gyorgyi A street4, 2100 Godollo, Hungary
Nikoletta Jaksa-Czotter
Agriculture Biotechnology Research Institute, National Research and Innovation Center, Szent-Gyorgyi A street4, 2100 Godollo, Hungary
Amani Ben Slimen
Istituto Agronomico Mediterraneo di Bari, Via Ceglie 9, 70010 Valenzano, BA, Italy
Richard Fabian
Agriculture Biotechnology Research Institute, National Research and Innovation Center, Szent-Gyorgyi A street4, 2100 Godollo, Hungary
Janos Lazar
Research Institute for Viticulture and Enology, Experimental Station of Kecskemét, National Research and Innovation Center, Katona Jozsef street 5, 6000 Kecskemét, Hungary
Lucie Tamisier
Plant Pathology Laboratory, TERRA-Gembloux Agro-Bio Tech, University of Liège, Passage des Déportés, 2, 5030 Gembloux, Belgium
Michele Digiaro
Istituto Agronomico Mediterraneo di Bari, Via Ceglie 9, 70010 Valenzano, BA, Italy
Sebastien Massart
Plant Pathology Laboratory, TERRA-Gembloux Agro-Bio Tech, University of Liège, Passage des Déportés, 2, 5030 Gembloux, Belgium
Eva Varallyay
Agriculture Biotechnology Research Institute, National Research and Innovation Center, Szent-Gyorgyi A street4, 2100 Godollo, Hungary
Grapevine line pattern virus (GLPV) was first described 30 years ago in Hungary. The lack of its genomic sequences and of an available antiserum made its detection impossible in other parts of the world. Three different high-throughput sequencing (HTS) protocols applied on a GLPV-infected vine allowed the construction of the full genome sequence of this virus. It includes three RNA segments, encoding four proteins: methyltransferase-helicase (1a), RNA-dependent RNA polymerase (2a), movement protein (3a) and coat protein (3b). The obtained sequences were used to design specific primers for its detection by RT-PCR and Northern blot hybridization, respectively. These diagnostic methods were used to test the presence of GLPV in graft-inoculated plants and in 220 grapevine accessions of different Mediterranean origins. The three RNAs-encoding proteins of GLPV shared a very high amino acid identity with those of hop yellow virus, a tentative member of the Anulavirus genus, leaving no doubt that both are two isolates of the same viral species. A circular RNA originating from the RNA2 was found, for which an alternative silencing suppressor role is hypothesized. Further investigation is needed to determine this possibility and also the host range and pathological significance of the virus.
