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3. First report of tomato as a natural host of tobacco vein banding mosaic virus (TVBMV) in Yunnan, China.

Author

Xu Z, Weng H, Yang Z, Cao Y, Song X, Mao Q, Wang L, Rao S, Li Y, Chen JP, and Li J

Abstract

Tomatoes ( Solanum lycopersicum L.), as a significant solanaceous crop, have attracted global research interest focused on elucidating its plant virus incidence, epidemiology, and pathogenicity, especially in field production (Li et al. 2021; Rivarez et al. 2023). Tobacco vein banding mosaic virus (TVBMV) is classified in the genus Potyvirus. Since its discovery, TVBMV has been documented to infect tobacco, potato, jimsonweed, wild eggplant under nature conditions (Wang et al. 2017). Also, TVBMV could be transmitted to tomatoes by aphids ( Myzus persicae ) in laboratory conditions (Bi et al. 2020). However, to date, there is no sequence representing TVBMV infecting tomato deposited in NCBI nucleotide database. In August 2023, about 30% of tomato planted in an open field showing typical viral disease symptoms (chlorosis, yellowing, mosaic, curling, and mottling) in Dali, Yunnan, China. To identify the potential pathogen, about 9 symptomatic leave from different plants were collected, pooled and sent for high-throughput sequencing. In summary, total RNA was extracted using TRIzol ® Reagent (Invitrogen, CA, USA). Subsequently, RNA sequencing libraries were constructed using the TruSeq RNA sample prep kit (Illumina, CA, USA), followed by RNA-Seq sequencing performed on an Illumina HiSeq4000 platform (LC Sciences, USA). A total of 71,368,934 raw reads (paired-end) of the length 150-bp were generated. After quality control, 69,746,872 reads were retained and subjected to de novo assembly using Trinity (version 2.8.5). The assembled contigs (ranging from 186 nt to 15,573 nt) were searched against the NCBI non-redundant protein (NR) to detect potential viral pathogens using BLASTx with a cutoff e-value of 10 -5 . As a result, 2 viral contigs were assigned to 2 known viruses: TVBMV (Depth: 1960X, BLASTn similarity: 95.26%) and chilli veinal mottle virus (ChiVMV) (Depth: 3581X, BLASTn similarity: 98.22%). No other viruses and viroids were detected. The presence of TVBMV and ChiVMV were tested positive in all of the 9 samples originally collected. Notably, the detection primer for TVBMV identified in tomato (TVBMV-tomato) was designed from the newly assembled TVBMV genome (Forward: 5'- CTCGGTGAGGAAGGTGACATAAGT'; Reverse: 5'- CTTTCAACACCAGGGAATCTAGTG -3'). The nearly complete genome sequence of TVBMV-tomato was validated by overlapping RT-PCR and submitted to NCBI nucleotide database (accession: PP848192). To assess TVBMV-tomato infectivity, symptomatic tomato leaf sap was mechanically inoculated onto 4 healthy tomatoes, with healthy tomato leaf sap serving as a control. After 3 weeks, plants inoculated with symptomatic sap showed leaf curling and stunting, while control plants remained unaffected. All symptomatic samples tested positive for TVBMV via RT-PCR (4/4). For comparison, TVBMV could not be detected in the control sample. Sanger sequencing verified the expected 986 bp amplicon sequences. However, ChiVMV was also detected in all symptomatic tomato samples, which makes it possible that the symptoms after inoculation were the result of the synergism of TVBMV and ChiVMV. Phylogenetic analysis based on complete coding sequence revealed that TVBMV-tomato was most closely related to TVBMV identified from Solanum lyratum . To our knowledge, this work represents the first report of natural occurrence of TVBMV in agroecosystem in Yunnan, China.

Published
2024
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4. First report of potato virus H infecting tomato ( Solanum lycopersicum ) in China.

Author

Xu Z, Weng H, Yang Z, Wang L, Mao Q, Cao Y, Song X, Rao S, Chen JP, Li Y, and Li J

Abstract

Potato virus H (PVH), belonging to the genus Carlavirus in the family Betaflexiviridae , was initially discovered in potato plants in Inner Mongolia, China (Li et al., 2013). Subsequently, it was documented to infect pepino, a perennial shrub of the Solanaceae family like potatoes (Abouelnasr et al., 2014). Tomato ( Solanum lycopersicum L.), a major global crop, faces threats from various plant viruses. In an open field survey in Yunnan, China during July 2023, tomatoes (cultivar: Liangsi) showed typical virus symptoms: leaf yellowing, curling, mottling, and fruit with abnormal shape and color. Eleven symptomatic tomato samples were collected for high-throughput sequencing to identify the potential pathogen. RNA sequencing libraries were prepared using the TruSeq RNA sample prep kit (Illumina, San Diego, CA, USA), followed by RNA-seq sequencing on an Illumina HiSeq4000 platform (LC Sciences, USA). Approximately 77,928,560 paired-end reads (150-bp each) were generated. After quality control, 75,808,296 reads were retained and subjected to de novo assembly using Trinity (version 2.8.5). The assembled contigs, ranging from 198 nt to 15865 nt, were used as queries to search against the NCBI non-redundant protein sequence database (NR) or nucleotide sequence database (NT) to detect the potential pathogens using BLASTx and BLASTn program with a cutoff e-value of 10-5. As a consequence, certain contigs were assigned to 3 plant viruses, including PVH (the highest RdRp blastx identity to UAD82396.1: 97.8%), Capsicum chlorosis virus (CaCV, the highest RdRp blastx identity to APQ31267.1: 98.4%), and southern tomato virus (STV, the highest CP-RdRp fusion protein blastx identity to QOW17541.1: 99.74%). The presence of the identified 3 viruses was subsequently screened in the 11 tomato samples originally collected from the corresponding field. Notably, the specific detection primers for the PVH genome was designed from the newly assembled PVH genome (Forward primer: 5'- ATAGTTGTGCACTGTGTGCCTG-3'; Reverse primer: 5'-GCTTAAGGTTCTTAGCGTATTC-3'), targeting ~1.1kb. Consequently, PVH was detected in 3 out of 11 samples: 2 leaf samples and 1 fruit sample, with one leaf sample showing a single infection. The complete genome sequence of PVH in tomatoes (PVH-tomato) was successfully obtained by assembling nine overlapping regions spanning the entire PVH-tomato genome, following the RT-PCR and the 5' RACE and 3' RACE approaches, and deposited in NCBI nucleotide database with accession number OR397130.1Phylogenetic analysis based on the full genome sequences of PVH-tomato and other publicly available PVH isolates revealed that PVH-tomato was closely related to a PVH isolate found in potatoes in Yunnan (blastn similarity: 97.76%) (Fig. S1A). To test PVH-tomato infectivity and pathogenicity, four healthy Nicotiana benthamiana and four healthy tomato plants were mechanically inoculated with PVH-infected leaf sap; controls used sap from healthy plants. Three weeks post-inoculation, all N. benthamiana (4/4) and three tomato plants (3/4) were PVH-positive by RT-PCR. Symptoms were milder in N. benthamiana , and only two tomato plants (2/4) showed leaf curling. No PVH was detected in control samples (Figure S1B, S1C). Sanger sequencing confirmed the amplicons' expected length of 1093 bp. Previously, PVH was documented only in potato and pepino. This is the first report of tomatoes as natural PVH hosts and PVH infecting N. benthamiana under lab conditions.

Published
2024
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