First report of Watermelon crinkle leaf-associated virus 2 infecting watermelon (Citrullus lanatus) in Oklahoma.

Watermelon (Citrullus lanatus) is one of the major cucurbit crops in Oklahoma, which is grown on >1,200 acres. It contributes $16 million to the state's economy (Shrefler et al., 2017; NASS, 2022). During the 2021 growing season, virus-like symptoms on watermelon plants were observed in a grower's field in Blaine County, Oklahoma. These symptoms included mottling, crinkled leaf edges, and a unique yellow mosaic pattern (Fig. 1). Leaf tissue samples were randomly collected from nine plants and total RNA was extracted using Spectrum Plant Total RNA Kit (Sigma-Aldrich). Total RNA from one sample (named BL13) was subjected to high-throughput sequencing (HTS) on the NextSeq 500/550 High-Output kit v2.5 (Illumina, USA) at the genomic facility of Oklahoma State University. A total of 21,52,786 trimmed pair-end reads were assembled using CLC Genomics Workbench (v12.0.3) (Qiagen, Inc.) and subjected to BLASTn analysis. Of these, three contigs of 6,626 bp, 1,383 bp and 1,233 bp (average coverage 20,658X) showed 99% nucleotide (nt) sequence identity with RNA1 of a watermelon crinkle leaf-associated virus (WCLaV-2) isolate from Brazil (LC636073). The HTS data for BL13 samples also revealed three contigs of 263 pb, 567 bp and 1,066 bp that matched with cucumis melo crytpic virus isolate CmCV-HLI but was not confirmed by RT-PCR. The presence of WCLaV-2 in the BL13 sample was confirmed by RT-PCR using primers (RNA1-F: 5'-CAAAACGCCCATAAG AATAG-3'and RNA1-R: 5'- CTCCATTAATGAGAACTAGGAG-3') which amplified a 1.2 kb segment of the RNA1. The PCR product was confirmed on 1% agarose gel, cloned and three independent recombinant clones Sanger sequenced (Eurofins Genomics LLC, Louisville, KY, USA). The resulting consensus sequence (1.2 Kb) (ON453838) was subjected to a BLASTn search against the Genbank databases, resulting in 99.76% nt identity with WCLaV-2 RNA1 (Accession no. LC636073). Screening of the remaining eight symptomatic samples by RT-PCR revealed another positive sample (named BL7) for WCLaV-2. Consensus nt sequence (1.2 Kb) analysis for the virus isolate from the BL7 sample (Accession no. ON453839) shared 99.84% nt identities with WCLaV-2 RNA1 (LC636073). Total RNA from BL13 and BL7 samples, as well as the remaining seven samples, were tested against three major potyviruses (PRSV-W, WMV, and ZYMV) by multiplex RT-PCR (Rajbanshi & Ali, 2019). Both BL13 and BL7 samples were negative to all three potyviruses but the other eight samples were positive to one or two of the potyviruses. WCLaV-2 is a negative-sense ssRNA virus (family Phenuiviridae) and has been recently reported from watermelon in China (Xin et al., 2017) and Brazil (Maeda et al. 2022). In the United States, it has been reported from Florida (Hendrick et al., 2021), Georgia (Adeleke et al., 2022), and Texas (Hernandez et al., 2021). The mode of transmission of WCLaV-2 and its direct effect on watermelon fruit is not known (Xin et al., 2017; Maeda et al., 2022). Our results report for the first time the occurrence of WCLaV-2 infecting watermelon naturally in Oklahoma and show a further potential threat to watermelon production in the State. Further studies are needed to determine the incidence of WCLaV-2 in other counties of Oklahoma.