Sauropus androgynus has high medicinal and edible values. However, its growth is threatened by various viral diseases, which severely affect both the yield and quality of S. androgynus. Since research is limited regarding the viral diseases affecting S. androgynus in China.Objective To isotation, identifying the viral pathogens of S. androgynus in China.Methods The small RNA sequencing (sRNA-seq) data of S. androgynus leaves from our previous study were analyzed. RT-PCR was employed to detect the datura yellow vein virus (DYVV) in leaf samples of 10 different varieties of S. androgynus. With the total RNA of positive S4 leaves as a template, reverse transcription-polymerase chain reaction (RT-PCR), rapid amplification of cDNA ends (RACE), and Sanger sequencing were employed to determine the full-length genome sequence of the DYVV isolate from S. androgynus (named DYVV-sa).Results The analysis of the sRNA-seq data revealed the presence of DYVV in S. androgynus. RT-PCR detection of different varieties showed that only S4 and S12 tested positive for DYVV, and the full-length sequence of DYVV-sa was cloned based on S4. The genome of DYVV-sa was 13 185 nt in length and contained six open reading frames (ORFs). The DYVV-sa showed the identity as high as 95.8%-98.1% with the DYVV sequences isolated from Thunbergia alata. Moreover, the phylogenetic tree also demonstrated that DYVV-sa shared the closest genetic relationship with DYVV, clearly indicating that DYVV-sa was an isolate of DYVV. In addition, the majority of DYVV-sa virus-derived small interfering RNA (vsiRNA) were 21 nt and 22 nt, and those of 21 nt were more abundant. The first nucleotide at the 5′ termini of vsiRNAs derived from DYVV-sa preferred U and C. The proportion of vsiRNAs derived from the negative strand was higher than that from the positive strand. The distribution of vsiRNAs along the viral genome was generally even, with some hot spots formed in local regions.Conclusion This study found that DYVV can infect S. androgynus and successfully obtains the full-length genomic sequence of the DYVV-sa isolate. These findings expand the known natural host range of DYVV, provide crucial theoretical foundations for research on its genetic diversity and phylogenetic relationship, and offer clues for the prevention and control of viral diseases attacking S. androgynus.