During winter 2020-2021, a severe virus-like disease outbreak was observed in eggplant (Solanum melongena L.) hybrids 'Monarca' (F1) and 'Angela' (F1) growing under protected conditions in Heraklion, Crete, Greece. In three greenhouses, the percentage of infected plants reached 100% leading to crop abandonment. Symptoms included leaf mottling and yellowing accompanied with plant stunting and apical necrosis. Extensive fruit damage was due to severe malformation and necrotic lesions on the calyx, peduncle and the endocarp (Sup. Fig. 1). To identify the causal agent, total RNA was extracted from a symptomatic eggplant fruit with PureLink™ RNA Mini Kit (ThermoFisher Scientific, USA), which was subjected to high throughput sequencing (HTS) analysis (Illumina Inc., USA). The de novo assembly of the obtained 25 million, 75 bp, single-end reads with Geneious Prime (Biomatters, New Zealand) and the annotation of the resulting contigs with BLASTn revealed the presence of only eggplant mottled crinkle virus (EMCV, genus Tombusvirus) in the sample. The assembled sequence of EMCV isolate from Greece (EMCV-Gr, GenBank Acc. No. MW716271) was 4764 bp in length, covering the full genome of the virus and showing 96.3 % nucleotide (nt) identity with an isolate identified from calla lilies (Zantedeschia sp.) in Taiwan (AM711119). Five symptomatic and seven asymptomatic 'Monarca' (F1) eggplants, as well as two symptomatic 'Angela' (F1) eggplants were tested by RT-PCR that targeted the capsid protein gene of the virus (Dombrovsky et al., 2009). PCR products of 1184 bp were obtained from the seven symptomatic samples and their Sanger sequencing revealed 100 % nt identity with the respective HTS-derived EMCV sequence. No product was obtained from the analysis of the asymptomatic samples. Mechanical sap transmission of the HTS analysed eggplant sample resulted in necrotic local lesions on Nicotiana rustica and Chenopodium quinoa, necrotic local lesions plus systemic necrosis on N. tabacum cv. Xanthi-nc, cv. Samsun and N. glutinosa, systemic collapse of N. benthamiana, and leaf mottling plus stunting of pepper cv. Yolo Wonder plants (Sup. Fig. 1I). Although no symptoms were observed on tomato plants cv. Ace 55, systemic EMCV infection was detected by RT-PCR. To establish the relationship between the disease and EMCV, infected tissue from N. benthamiana plants was used for the mechanical inoculation of virus-tested negative eggplant seedlings cv. Black beauty. Necrotic spots, shoot necrosis, leaf mottling and mosaic, symptoms were observed (Sup. Fig. J) on the test plants ten days post inoculation and the presence of the virus was confirmed by RT-PCR as described. To the best of our knowledge this is the first report of EMCV infecting eggplant in Greece. The virus was originally described in eggplant in Lebanon (Makkouk et al., 1981) and it is mainly present outside the European Union (EU) territory, including India, Japan, Taiwan, Iran and Israel (Dombrovsky et al., 2009 and references therein). A latent EMCV infection was detected in pear in Italy (Russo et al., 2002) and the virus is considered by the European Food Safety Authority as an exotic virus of the genera Cydonia, Malus, and Pyrus that meets all the criteria to qualify as an EU quarantine pest (Bragard et al., 2019). Τhe severity of the disease observed in Crete leading to the destruction of eggplant greenhouse cultivations, constitutes EMCV as an emerging threat to eggplant and other solanaceous crops for Greece and Europe.
Keywords: Causal Agent; Crop Type; Etiology; Subject Areas; Vegetables; Viruses and viroids.