First report of tomato yellow mottle-associated virus infecting Solanum nigrum in China Zhenggang Li, Yafei Tang, Xiaoman She, Guobing Lan, Lin Yu, and Zifu He† Guangdong Provincial Key Laboratory of… Click to show full abstract
First report of tomato yellow mottle-associated virus infecting Solanum nigrum in China Zhenggang Li, Yafei Tang, Xiaoman She, Guobing Lan, Lin Yu, and Zifu He† Guangdong Provincial Key Laboratory of High Technology for Plant Protection, Plant Protection Research Institute, Guangdong Academy of Agricultural Sciences, Guangzhou, 510640, P. R. China. Tomato yellow mottle-associated virus (TYMaV) is a newly found cytorhabdovirus associated with epinasty of leaflet blades, yellow spots, puckering, and mottling symptoms in tomato plants in China (Xu et al., 2017). In May 2020, Solanum nigrum plants exhibiting leaf crinkling and mosaic symptoms (eXtra S1) were found in Shantou city, Guangdong, China. To identify the causal pathogens, the leaves of three symptomatic plants were collected and subjected to total RNA extraction with TRIzol Reagent (Takara, Kusatsu, Japan). About 100 μg RNA mixture, which consisted of an equal amount of total RNA extracted from the three samples, was subjected to small RNA deep sequencing and assembly (sRSA) (Kreuze et al., 2009). Small RNA cDNA library was constructed with the method described previously (Mi et al., 2008). Small RNA deep sequencing was performed with Illumina HiSeq X Ten platform. VirusDetect (Zheng et al., 2017) was used to analyze the sequence data. The result showed that the sequence data includes about 11 million reads and generated 194 unique contigs after removal of host-derived contigs. Subsequently, the unique contigs were screened using BLASTn search against the virus database. One hundred and five unique contigs were mapped to TYMaV genome (reference sequence, KY075646), 21 unique contigs were mapped to RNA1 segment of tomato chlorosis virus (ToCV) genome (reference sequence, KY618796), 67 unique contigs were mapped to RNA2 segment of ToCV genome (reference sequence, KY618797), and one unique contig was mapped to pepper veinal mottle virus (PVMV) genome (reference sequence, FJ617225) (eXtra S1). To verify the sRSA result for TYMaV detection, RT-PCR was performed with two primer pairs TYMaV-F1/R1 (5'-TCATTAGACTCAGGCCTAATCCTCA AAGT-3'/5'-GATATGGAGACGTCCAAGTTCAAAGGGATGGA-3'), and TYMaV-F2/R2 (5'-TATGCGGCAGCTTTCATGTCTATAGACCCT-3'/5'-ATGACCTAGCTTCAATAACAGTCGCG-3'), which are designed according to the sRSA result. All the symptomatic samples tested positive for TYMaV (eXtra S2). Western blot with TYMaV N protein-specific antibody further verified the result (eXtra S2). To obtain the nearly full-length sequence of TYMaV identified in Shantou, 13 primer pairs were designed to amplify the viral fragments. The amplified PCR products were then introduced into pMD19T (Takara, Kusatsu, Japan) and sequenced by Sangon Biotech Co. (Shanghai, China). The nearly full-length sequence of TYMaV Shantou isolate (TYMaV-ST) was assembled from the 13 overlapping sequences (reference sequence, MW527091). TYMaV-ST genome comprises of 13401 nt and shares 84.93% nucleotide sequence identity with the reference genome (KY075646). In addition, 37 S. nigrum samples and 20 tomato samples nearby with viral disease symptoms were collected from different sites of Guangdong province, China. Six S. nigrum samples and five tomato plant samples tested positive for TYMaV by RT-PCR, suggesting a wide spread of the virus in the surveyed region. These results together with those of the sRSA assay also suggest that the disease symptoms shown in the original S. nigrum plants may not necessarily be caused by TYMaV or by TYMaV alone. To our knowledge, this is the first report of TYMaV infecting S. nigrum in China. S. nigrum is a common weed which belongs to the family Solanaceae and may serve as a reservoir for TYMaV in the fields. Further research is needed to verify whether this is indeed the case, and to understand the characteristics of this virus including its transmission, pathogenicity, and economic significance. The authors declare no conflict of interest. Funding This work was supported by the Key Research and Development Program of Guangdong Province (2018B020202006), the Agricultural Competitive Industry Discipline Team Building Project of Guangdong Academy of Agricultural Sciences (202103TD and 202105TD), the Science and Technology Program of Guangzhou (202102020504), and Special Fund for Scientific Innovation Strategy-Construction of High-Level Academy of Agriculture Science (R2019PY-QF003). References: Kreuze, J. F., et al. 2009. Virology. 388: 1. Mi, S., et al. 2008. Cell. 133: 116. Xu, C., et al. 2017. J Virol. 91: 11. Zheng, Y., et al. 2017. Virology. 500: 130.
               
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