First Report of Tobacco Ringspot Virus Infecting Pawpaw Orchard (Asimina triloba (L.) Dunal) in North America.

Pawpaw (Asimina triloba (L.) Dunal, Annonaceae) is a fruit tree native to eastern North America, increasingly grown for commercial production in the United States (Callaway, 1992; Layne, 1996), Europe, and Western Asia (Brannan and Coyle, 2021; Lolletti et al., 2021). In 2012, virus-like symptoms were noticed in a 0.3 ha pawpaw orchard at Michigan State University Plant Pathology Research Station; ~30% of the trees presented symptoms which included foliar mosaic, vein yellowing, and necrosis, and were first mistaken for nutrient (magnesium/zinc) deficiency. Trees were treated for magnesium/zinc deficiency but continued to decline in fruit yield and overall vigor, and typically died within 3─4years after symptoms were first observed (Fig. S1). Preliminary testing using Agdia ImmunoStrips for cucumber mosaic virus, impatiens necrotic spot virus, tobacco mosaic virus, tomato spotted wilt virus and the genus Potyvirus were negative. However, icosahedral virus particles were observed by TEM (Fig. S2). To establish virus identity, we deep-sequenced tissue from a symptomatic pawpaw obtained from same site in summer 2021. Virus particles were purified , and virion-associated nucleic acids (VANA) were extracted using the Purelink viral RNA/DNA kit (Invitrogen) (Maclot et al., 2021). Both viral RNA and DNA were subjected to high-throughput sequencing (HTS) on the Illumina NextSeq 500 platform (GIGA, University of Liege, Belgium). A total of 574,274 trimmed reads (150 nt read length) were de novo assembled using Geneious Prime 2022.2.2 software (https://www.geneious.com) and subjected to BLASTn analysis. Two contigs of 7511 bp (average coverage: 1048) and 3924 bp (average coverage: 3012) showed 94% and 95% nt identities with tobacco ringspot virus (TRSV) RNA1 isolate YW (MT042825) and RNA2 isolate OH19 (MT561435) respectively. These two contigs (Accession no. OP589177 and OP589178) covered the complete TRSV genome for each segment. HTS found no other plant-associated viral / virus-like sequences in this symptomatic pawpaw sample. To further confirm TRSV infection, leaf extract from this sample was tested with RT-PCR using primers specific to the RdRp gene of TRSV RNA1 (Forward, 5'-TAACCTCATTGCAGTTGATCCTT-3'; Reverse, 5'-TAATTCAAGCTCAGGTCTCTTCT-3'; 739 bp amplicon) and the coat protein of TRSV RNA2 (Forward, 5'-TCATGCTTAAAGATGCAGATGTG-3'; Reverse, 5'-TATAAAGCTCCGCACTAGAAAACA-3'; 753 bp amplicon). Sanger sequence analysis showed 99.5% and 99.8% nt identity between the amplicons and the HTS contigs (RNA1 and RNA2 respectively) assembled from the pawpaw sample, and the amplicons likewise matched GenBank TRSV sequences (91.7% and 95.6% nt identities respectively with TRSV RNA1 isolate CmTX-H (MN504766) and TRSV RNA2 isolate IA-1-2017 (MT563079)). We further screened for TRSV infection in leaves from four symptomatic and three non-symptomatic pawpaw trees collected from the same site in 2022. RT-PCR revealed positive infection in all four symptomatic samples and one of the three (33%) non-symptomatic samples. Our results confirm the presence of TRSV infection in symptomatic pawpaw trees and emphasize the importance of also monitoring non-symptomatic trees. We confirmed graft transmission with 100% transmission rate observed in 200 trees grafted from a TRSV-infected pawpaw (Shenandoah cultivar), and investigation of other transmission vectors is on going. Because of TRSV's wide host range (Tolin, 2008), its broad transmission profile in other crops (via nematodes, thrips, seeds, sap inoculation, and grafting) (Hill and Whitham, 2014), and the notable decline observed in infected pawpaws from different cultivars (10-35, NC-1, Overleese, Pennsylvania-Golden, Shenandoah, Sunflower, Wabash), TRSV appears to pose a new threat to pawpaw orchards. To the best of our knowledge, this is the first report of TRSV infecting pawpaw in North America and the world.