Cucurbit chlorotic yellows virus infecting Rehmannia glutinosa was detected in China.

Rehmannia glutinosa Libosch. is a perennial herbaceous plant of the family Scrophulariaceae. Its roots can be used as traditional Chinese medicine. The asexual reproduction by vegetative organ of R. glutinosa lead to an increased viral disease that seriously affects its yield and quality (Kwak et al. 2020; Kwak et al. 2018; Ling and Liu 2009). Leaves of R. glutinosa in Wenxian County, Henan Province, China showed symptoms of chlorosis, mosaic and irregular yellow in August 2019. In general, the older leaves at the base or middle of the plant (sample 2# and 5#) first became irregular yellowing, followed by a gradual extend to the leaves at the top (Supplementary Fig. S1A). Six plants (2#, 3#, 5#, 7#, 8#, and 9#) with these symptoms were collected. The total RNA was extracted and its siRNAs were obtained. High-throughput siRNA sequencing (Sangon, Shanghai, China) was performed on Illumina Hiseq 2000 platform with paired-end method after siRNA library construction (NEBNext Ultra II RNA Library Prep Kit, NEB, UK). Sequencing files were treated with Illumina's CASAVA pipeline (version 1.8). The length of the resulting reads with adaptor removed were mostly distributed ranging from 21-24 nt (Supplementary Fig. S1B). The Velvet Software 0.7.31 (k=17) was taken to do de novo assembling, and the contigs (∼13,000, Contigs > 300 bp) were used to perform BLASTN against GenBank database. Two viruses, Rehmannia mosaic virus (ReMV) and cucurbit chlorotic yellows virus (CCYV), were frequently appeared in analyzed six symptomatic samples. To further identify the infection of CCYV to R. glutinosa, ten samples with virus-infected symptoms were randomly collected. Total protein and RNAs were extracted for RT-PCR and ELISA (HALING. Shanghai, China). A specific pair of primers (Supplementary Table S1) were designed to amplify the 753-bp length coat protein (CP) gene of CCYV. The result showed that two samples appeared a specific band of expected size on the agarose gel, which indicated that they were infected by CCYV (Supplementary Fig. S1C, Upper panel). The same result was obtained by ELISA assay (Supplementary Fig. S1D). The amplified CP fragment of CCYV was recycled and purified by TIANgel Midi Purification Kit (Tiangen, Beijing, China), followed by cloned into pMD19-T (TaKaRa, Dalian, China) and transformed into E. coli DH5a.Ten separate clones were selected and sequenced (Sangon, Shanghai, China) after PCR verification. The obtained sequences (GenBank accession No. MW521380 & MW521381) were analyzed by BLASTN and bioEdit software (version 7.2.3). The results showed 100% identity with the CCYV CP sequences that mainly derived from infected cucurbit. To confirm the occurrence and distribution of CCYV and ReMV in planting area, the other twenty-four samples (20 with chlorosis and stunt symptoms and 4 with invisible symptoms) were randomly collected for RT-PCR in different regions of Henan Province (Supplementary Table S1). The results showed that the CCYV and ReMV infection rate were 20.5% and 61.7%, respectively. Co-infection of the CCYV and ReMV was 5.8% in fields (Supplementary Table S2). In sum, these results indicated the CCYV can naturally infect R. glutinosa in China. CCYV is transmitted by white-fly in a semi-persistent manner and mainly damages cucurbits (Orfanidou et al. 2017). CCYV has been discovered in many places (Huang et al. 2010). To date, there is no report about CCYV infecting R. glutinosa in nature. This is the first report of CCYV naturally infect R. glutinosa in China.