Abstract
Coguvirus eburi is a member of the genus Coguvirus in the family Phenuviridae (Khun et al., 2020). The species Coguvirus eburi was established to include citrus virus A (CiVA), which is a negative-sense, single-stranded RNA virus that was first found infecting sweet orange in southern Italy via high-throughput sequencing (HTS) (Navarro et al., 2018). This virus was also found to infect pome fruits in France, such as pear (Svanella-Dumas et al., 2019). More recently CiVA infections have been associated with impietratura disease in citrus (Beris et al. 2021). In the summer of 2021, leaf samples were collected from a pear tree (Pyrus communis cv. Bosc, B175) in the Koue Bokkeveld, South Africa as part of a virus survey. Sample B175 displayed no visual disease symptoms. One gram of leaf petioles was used for total RNA extraction, using a modified CTAB extraction protocol (Ruiz-García et al. 2019). Ribo-depleted RNA was prepared (Ribo-Zero Plant kit) and a sequencing library constructed (Illumina TruSeq Stranded Total RNA). The RNA library was paired-end (2 × 100 bp) sequenced on an Illumina HiSeqX instrument (Macrogen, South Korea). A total of 47,750,152 reads were obtained. Raw data was trimmed for quality with Trimmomatic (SLIDINGWINDOW:3:20, MINLEN:20) (Bolger et al. 2014). De novo assembly performed with CLC Genomics Workbench 11.0.1 (Qiagen) (Default parameters) using high quality reads yielded 75250 contigs. BLASTn analysis identified two viral contigs with high nucleotide (nt) identity to apple stem pitting virus (ASPV) and CiVA. The CiVA contig was 9400 nts and on closer examination, a concatemer of CiVA RNA1 and RNA2. The concatenation occurred due to the characteristic near-identical nucleotides shared at the 5' and 3' ends of RNA1 and RNA2 of these negative-stranded RNA viruses (Navarro et al., 2018). After splitting and curation, the RNA1 contig was 6664 nts and the RNA2 contig 2686 nts. A total of 51397 and 34820 reads were used to construct these contigs resulting in an average depth of coverage of 761 and 1281 for RNA1 and RNA2, respectively. The contigs had the highest nt identity to the complete CiVA GenBank accessions MT720885.1 (95.53%) and MW148460.1 (96.03%), spanning 99.6% and 98.1 % of the genomes of RNA1 and RNA2, respectively. These contigs were submitted as partial genomes to GenBank as accessions MZ463039 and MZ463040. Reverse transcription polymerase chain reaction (RT-PCR) was used to validate the presence of CiVA in sample B175. Two RT-PCR assays, directed at RNA1 and RNA2 respectively (Bester et al. (2021)) were used to generate amplicons. Amplicon sequences were confirmed with bi-directional Sanger sequencing. Twenty-one additional samples from the same orchard as B175 as well as other samples from the Koue Bokkeveld and Elgin areas, including cultivars Abate (10 samples), Forelle (10 samples), Early Bon Chretien (3 samples), Packham's Triumph (12 samples) and Rosemarie (3 samples), were all surveyed for CiVA using the same RT-PCR assays as mentioned above. Thirty-six of the 59 samples tested were positive for CiVA, which further confirms the presence and wide-spread distribution of this virus in the limited survey conducted in pears in South Africa. However, no association with any disease symptoms or specific cultivar were identified. This is the first report of CiVA infecting pear in South Africa. This study therefore contributed to investigating the distribution of this virus and will assist the South African plant material certification scheme to assess the incidence of CiVA in South Africa.
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