First report of cereal yellow dwarf virus RPS infecting wheat in Australia.

Yellow dwarf viruses (YDVs) reduce grain yield in a wide range of cereal hosts worldwide. Cereal yellow dwarf virus RPV (CYDV RPV) and cereal yellow dwarf virus RPS (CYDV RPS) are members of the genus within the family (Scheets et al. 2020; Sõmera et al. 2021). Along with barley yellow dwarf virus PAV (BYDV PAV) and barley yellow dwarf virus MAV (BYDV MAV) (genus , family ), CYDV RPV is found worldwide and has mostly been identified as being present in Australia based on serological detection (Waterhouse and Helms 1985; Sward and Lister 1988). However, CYDV RPS has not previously been reported in Australia. In October 2020, a plant sample (226W) was collected from a volunteer wheat () plant located near Douglas, Victoria, Australia that displayed yellow-reddish leaf symptoms typical of YDV infection. The sample tested positive for CYDV RPV and negative for BYDV PAV and BYDV MAV by tissue blot immunoassay (TBIA) (Trębicki et al. 2017). Given that CYDV RPV and CYDV RPS can both be detected using serological tests for CYDV RPV (Miller et al. 2002), total RNA was extracted from stored leaf tissue of plant sample 226W for further testing using the RNeasy Plant Mini Kit (Qiagen, Hilden, Germany) with modified lysis buffer (Constable et al. 2007; MacKenzie et al. 1997). The sample was then tested by RT-PCR using three sets of primers that were designed to detect CYDV RPS, targeting three distinct overlapping regions (each approximately 750 bp in length) of the 5' end of the genome where CYDV RPV and CYDV RPS differ most (Miller et al. 2002). The primers CYDV RPS1L (GAGGAATCCAGATTCGCAGCTT)/ CYDV RPS1R (GCGTACCAAAAGTCCACCTCAA) targeted the P0 gene, while CYDV RPS2L (TTCGAACTGCGCGTATTGTTTG)/ CYDV RPS2R (TACTTGGGAGAGGTTAGTCCGG) and CYDV RPS3L (GGTAAGACTCTGCTTGGCGTAC)/ CYDV RPS3R (TGAGGGGAGAGTTTTCCAACCT) targeted two different regions of the RdRp gene. Sample 226W tested positive using all three sets of primers and the amplicons were directly sequenced. NCBI BLASTn and BLASTx analyses showed that the CYDV RPS1 amplicon (Accession No. OQ417707) shared 97% nucleotide (nt) identity and 98% amino acid (aa) identity similarity with the CYDV RPS isolate SW (Accession No. LC589964) from South Korea, while the CYDV RPS2 amplicon (Accession No. OQ417708) shared 96% nt identity and 98% aa identity similarity with the same CYDV RPS isolate SW. The CYDV RPS3 amplicon (Accession No. OQ417709) shared 96% nt identity and 97% aa identity similarity with the CYDV RPS isolate Olustvere1-O (Accession No. MK012664) from Estonia, confirming that isolate 226W is CYDV RPS. In addition, total RNA extracted from 13 plant samples that had previously tested positive for CYDV RPV by TBIA were tested for CYDV RPS using the primers CYDV RPS1 L/R and CYDV RPS3 L/R. The additional samples, consisting of wheat (n=8), wild oat (, n=3) and brome grass ( sp., n=2), were collected at the same time as sample 226W from seven fields within the same region. Five of the wheat samples were collected from the same field as sample 226W, one of which tested positive for CYDV RPS while the remaining 12 samples were negative. To the best of our knowledge, this is the first report of CYDV RPS in Australia. It is not known if CYDV RPS is a recent introduction to Australia, and its incidence and distribution in cereals and grasses in Australia, while currently unknown, is being investigated.