Malus asiatica (Rosaceae, Malus) is a small deciduous tree, which has been cultivated in China more than 450 years (Jin, 2019). M. asiatica is deeply favored by consumers because of its sweet taste and high nutritional attributes, rich in vitamins, minerals and dietary fiber (Xue et al, 2013). Although the M. asiatica annual output is nearly 30 000 kg, it still cannot meet the market demand in China (Jin, 2019). In August 2021, the virus-like symptom such as colored spots on fruit epidermis of M. asiatica were observed in an orchard of Langfang (38°42′16.88″N, 116°39′15.23″E) of Hebei province, China. To investigate whether this symptom is related to virus infection, the symptomatic sample was subjected to small RNA sequencing. Total RNA was extracted from branch bark of a symptomatic tree using an RNAprep Pure Plant Kit (TianGen, China), The extracted RNA was used to construct a small RNA library using NEBNext® Multiplex Small RNA Library Prep Set for Illumina® (Set 1), (NEB, USA), then the resulting library was sequenced using Illumina novoseq 6000 (Illumina, USA) at Tianjin Novogene company (China). A total of 14,685,616 sequence reads were obtained. After filtering the low-quality reads, polyA, adaptor contaminants, fragments < 18 nt and > 26 nt, and reads matching apple genome, the number of reads reduced to 392,883. Finally, assembly of these clean reads generated 225 non-redundant contigs with Velvet software and 55 assembled contigs were aligned to Refseq viral database of NCBI by Bowtie software. One viral contig with length of 329 nt showed 98.48% significant similarity to genome sequences of Hohhot isolate of ASSVd (ASSVd-Hohhot) (GenBank Accession No. MZ476527.1) (Yuan et al, 2022). We then used a specific primer pair (ASSVd-F: 5’-G G T A A A C A C C G T G C G G T T C C-3’; ASSVd-R: 5‘-G G G A A A C A C C A A T T G T G T T T T A-3’) for reverse transcription (RT)-PCR to amplify the genome sequence of ASSVd. A 330 bp amplified product was cloned into the pGEM-T easy vector (Promega, USA), then sequenced by Sanger sequencing using T7 primer by Sangon Biotech (Shanghai) Co., Ltd. in China. The sequence of ASSVd has been deposited in the GenBank datebase (GenBank Accession No. ON093255). Blast analysis showed that the sequence had highest identity (326/330, 98.79%) with ASSVd-Hohhot (GenBank Accession No. MZ476527.1) (Yuan et al, 2022). To confirm the pathogenicity of ASSVd, fifteen healthy cucumber seedlings were inoculated mechanically with the extracts of ASSVd-infected branch bark of M. asiatica. There were no obvious symptoms were observed at 14 days post inoculation (dpi), however, the result of RT-PCR and Sanger sequencing showed four cucumber samples were positive for ASSVd. In addition, another 19 randomly collected M. asiatica samples with or without clear symptoms from Langfang were detected by RT-PCR, and ten (52.6%) of them were confirmed the presence of ASSVd. And all ten positive samples were symptomatic, while nine nonsymptomatic M. asiatica samples tested negative. The positive amplicons were cloned into the pGEM-T easy vector and sequenced using T7 primer by Sanger sequencing. All of the sequences were essentially identical to one another (GenBank Accession No. ON093255), which indicates that the positive samples are indeed ASSVd infected. To the best of our knowledge, this is the first report of ASSVd infection in M. asiatica, which expands our understanding of the host range of ASSVd.
