Plants of Senna multiglandulosa (family Fabaceae), an ornamental shrub, growing adjacent to tomato and chrysanthemum greenhouses located in San Diego, Texcoco, Estado de Mexico, had leaves with putative virus symptoms, consisting of annular or irregular chlorotic spots of different sizes (Supplementary Fig. 1a). To investigate the presence of a virus, high-throughput sequencing (HTS) was performed. Total RNA was extracted from symptomatic leaves of S. multiglandulosa plants using the SV Total RNA Isolation System Kit (Promega, USA). A portion of the RNA was sent to BGI Genomics (China) for cDNA library construction and sequencing on the DNBSEQ platform (BGI Genomics). HTS yielded 14,673,469 clean paired reads (150x2), which were assembled de novo into 91,879 contigs using SPAdes v3.15 software (Prjibelski et al. 2020). The contigs ranged from 78 to 14,534 nucleotides (nts), which were subjected to BLASTx and BLASTn analyses. A single viral contig of 9,501 nts was detected (average coverage: 56,716x per nt) representing the nearly complete genome of tobacco etch virus (TEV). The highest identity was 79.26% at the nt level (92% query coverage) with TEV isolate TEV7DA (GenBank: DQ986288; length: 9,539 nts) from the USA, and 86.67% at the amino acid (aa) level considering the polyprotein, which are higher than the species demarcation threshold (<76% nt and <82% aa) for the genus Potyvirus (Inoue-Nagata et al. 2022). Additionally, the sequence obtained from S. multiglandulosa revealed 79.21-79.37% nt identities with different TEV isolates from Solanaceae plants (Capsicum annuum, MW748496; Solanum lycopersicum, OM471966.1; Nicotiana tabacum, OL311684.1). The new TEV genome was deposited in GenBank under accession number ON110203. The results obtained by HTS were confirmed by RT-PCR with the original isolated RNA using a pair of specific primers designed from the TEV sequence (TEV-NIb-F, 5'- GCGCTTAAATGCAGACTCGG-3' and TEV-NIb-R, 5'-GTGAAAGTTCAGCAGCAAGCGCA-3') that amplify a 550-bp fragment of the RNA-dependent RNA polymerase. The obtained amplicon was sequenced by the Sanger method, and was 100% identical to the sequence generated by HTS. Subsequently, N. tabacum and N. glutinosa plants were mechanically inoculated using TEV-positive S. multiglandulosa leaves as the inoculum source. Twenty days after inoculation, light chlorotic spots and necrotic lesions were observed on N. tabacum and mosaic on N. glutinosa (Supplementary Fig. 1b-c). RT-PCR analysis confirmed the presence of TEV infection in these indicator plants. To determine the incidence of S. multiglandulosa plants showing TEV-infection symptoms, a survey (n=16) was carried out on two farms in Texcoco; the survey showed a 100% incidence of symptoms. Five survey samples were randomly selected, and the presence of TEV was confirmed by RT-PCR. The discovery of Tobacco etch virus (family Potyviridae: genus Potyvirus) in tobacco was reported in Kentucky, USA in 1928 (Valleau and Johnson, 1928), one of the most common and damaging viruses for the chili crop in Mexico (Delgado, 1974). TEV causes heavy yield loss in several Solanaceae plants and infects more than 120 species in 19 families of dicotyledons (Holmes, 1946). S. obtusifolia (originally Cassia obtusifolia) was the first legume reported as a natural host of TEV in Florida, USA (Anderson, 1954). To our knowledge, this is the first report of the natural infection of S. multiglandulosa by TEV in Mexico and the first TEV genome isolated and sequenced from a legume. S. multiglandulosa is widely distributed in 16 states in Mexico, both cultivated and naturalized, however, it is not considered native to the country (Rzedowski and Calderón, 1997). The occurrence of TEV in S. multiglandulosa represents an alternative reservoir of the virus, with an important role in the epidemiology of the disease.