Tomato (Solanum lycopersicum L.) is an important fruit and vegetable crop with high economic value due to its rich vitamins (Friedman. 2002). Over the past five years, due to tomato brown rugose fruit virus (ToBRFV) infection, the tomato production in many countries and regions in Asia, America and Europe have experienced declines in yield and quality (Salem et al. 2023). ToBRFV is a positive-sense single-stranded RNA virus of the genus Tobamovirus in the family Virgaviridae (Salem et al. 2016). In the field, ToBRFV mainly infects solanaceous crops, including tomato and pepper (Zhang et al. 2022). Symptoms on ToBRFV-infected tomato plants mainly include foliar mottle, vein necrosis, and brown mottled rugose fruit (Alfaro-Fernández et al. 2020, Hamborg et al. 2022, Ma et al. 2021). In April 2023, about 150 tomato plants showing leaf curl, brown patch, and rugose surface on fruits were found in a greenhouse grown with about 500 tomato plants in Huludao City, Liaoning province, China. Two leaves and eight fruits from each of 10 symptomatic tomato plants were sampled and subjected to dot enzyme-linked immunosorbent assay (Dot-ELISA) with an antibody against ToBRFV (LV BAO, Chengdu, China); and all samples tested positive. Sap inoculations were prepared from 0.1 g of ToBRFV-positive tomato leaves via homogenization with 0.01 mol·L-1 PBS (phosphate buffered saline, pH 7.2), which were then inoculated mechanically onto 10 tomato cv. Moneymaker and 10 Nicotiana benthamiana plants at four- to six-leaf stage, respectively. At 10 days post inoculation (dpi), the leaf curl symptoms of all tomato plants were shown, which were consistent with those on greenhouse-infected plants. At 5 dpi, the upper leaves of all N. benthamiana plants showed yellowing and curling symptoms. The results of Dot-ELISA assays revealed that these mechanically inoculated plants were positive for ToBRFV. Total RNAs of inoculated and greenhouse-collected samples were extracted using TRIzolTM reagent and analyzed by reverse-transcription (RT)-PCR with specific primers ToBRFV-FD (5' GTCCCGATGTCTGTAAGGCTTGC) and ToBRFV-RD (5' GCAGGTGCAGAGGACCATTGTAA) for ToBRFV detection, respectively. The results showed that a 680-bp fragment was obtained in all tested samples. Then, primers ToBRFV-F1 (5' GTGTATTTTTTACAACATATACC) and ToBRFV-R1 (5' AACCATTGACTCAGAACTC), ToBRFV-F2 (5' TAGCCAAGAATCACGCATG) and ToBRFV-R2 (5' AGCAGCAATAATCACCGTA), ToBRFV-F3 (GAAAGAGTGGGGACGTTACAACATTCATCGGTAAT) and ToBRFV-R3 (TGGGCCCCTACCGGGGGTTCCGGGGGAATTCGAAT) were used to amplify the full-length sequence of ToBRFV using field-collected samples. The methods of primer design are shown in supplemental file 1. The sequence obtained by Sanger sequencing showed 99.86% nucleotide (nt) identity with ToBRFV-SD isolate (accession no. MT018320.1) from Shandong province, China. The full-length sequence of ToBRFV was uploaded to GenBank database with the accession number OR437354. To our knowledge, this is the first report of ToBRFV infecting tomato in Northeast China.
Keywords: Pathogen detection; Subject Areas; ToBRFV; Tomato.