2022 taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales.

In March 2022, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by two new families (bunyaviral Discoviridae and Tulasviridae), 41 new genera, and 98 new species. Three hundred forty-nine species were renamed and/or moved. The accidentally misspelled names of seven species were corrected. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.

Two new superior primer pairs for universal detection of Xylella spp. in conventional PCR and TaqMan quantitative real-time PCR.

Xylella fastidiosa causes many economically important plant diseases such as Pierce's disease of grapevine, citrus variegated chlorosis disease, and olive quick decline syndrome. Another species in the same genus, Xylella taiwanensis, causes pear leaf scorch. Here, to enable an initial screening of plants suspected of being infected with Xylella spp. by conventional polymerase chain reaction (cPCR), new primer pairs-X67S1/XL2r and XrDf1/XLr4-were designed to target the 16S ribosomal DNA (rDNA) of not only X. fastidosa but also X. taiwanensis. In cPCR to detect both species, X67S1/XL2r showed features superior to those of other primer pairs, such as fewer false negatives and false positives, whereas XrDf1/XLr4 seemed to be unsuitable because of abundant non-specific amplification. However, when XrDf1/XLr4 was combined with a probe in a TaqMan quantitative real-time PCR (qPCR), the assay detected no false positives and was more useful in the universal detection of Xylella spp. than TaqMan qPCR assays reported previously.

2021 Taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales.

In March 2021, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by four families (Aliusviridae, Crepuscuviridae, Myriaviridae, and Natareviridae), three subfamilies (Alpharhabdovirinae, Betarhabdovirinae, and Gammarhabdovirinae), 42 genera, and 200 species. Thirty-nine species were renamed and/or moved and seven species were abolished. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.

Complete nucleotide sequence of chrysanthemum mosaic-associated virus, a novel emaravirus infecting chrysanthemum.

Here, we report the complete genome sequence of chrysanthemum mosaic-associated virus (ChMaV), a putative new member of the genus Emaravirus. The ChMaV genome comprises seven negative-sense RNA segments (RNAs 1, 2, 3a, 3b, 4, 5, and 6), and the amino acid sequences of its RNA-dependent RNA polymerase (RNA1), glycoprotein precursor (RNA2), nucleocapsid protein (RNA3), and movement protein (RNA4) showed the closest relationship to pear chlorotic leaf spot-associated virus. Phylogenetic analysis showed that it clusters with emaraviruses whose host plants originate from East Asia.

Novel degenerate primer sets for the detection and identification of emaraviruses reveal new chrysanthemum species.

Emaraviruses are a genus of plant viruses that have been newly described in the past decade. These viruses, some of which are transmitted by eriophyid mites, are important pathogens of cereals, fruits, and ornamental trees worldwide. This study used sequence data for emaraviruses to design new degenerate primer sets that identify an extensive range of known and unknown emaraviruses. Sequence alignment of the amino acid and nucleotide sequences of RNA-dependent RNA polymerases for 11 accessions among nine emaraviruses confirmed the presence of seven conserved motifs (Pre-A, F, A, B, C, D, and E). Subsequently, new degenerate primers were designed based on motifs F, A, and B, which were the most conserved among the seven motifs. Reverse transcription-polymerase chain reaction using these primers detected known emaraviruses more efficiently than previously known primers. These new primers enabled the identification of a partial nucleotide sequence of a putative novel emaravirus from chrysanthemum leaves showing mosaic or yellowish ringspot symptoms known to be associated with eriophyid mites, Paraphytoptus kikus. These sequences were specifically detected from the symptomatic leaves of a chrysanthemum, and the putative emaravirus was tentatively named chrysanthemum mosaic-associated virus.

First report of pear chlorotic leaf spot-associated virus on Japanese and European pears in Japan and its detection from an eriophyid mite.

In May 2018, three leaf samples were collected from Japanese pear trees cv. "Hosui" that exhibited typical chlorotic spot symptoms (Supplementary Figure S1) in a germplasm nursery in Tsukuba, Ibaraki. Total RNA was prepared using the rapid CTAB method (Gambino et al. 2008) for high-throughput sequencing, as described by Kubota et al. (2020). In brief, after removing ribosomal RNAs, a library was constructed by fragmenting RNA, synthesizing cDNA, and polymerase chain reaction (PCR) amplification. Sequencing was performed using NovaSeq 6000 sequencer (Illumina, San Diego, CA, U.S.A.) with paired-end 150 nt reads. De novo assembly was performed using CLC Genomics Workbench 11.0 Software (Qiagen, Hilden, Germany), with a minimum length of 500 bp. A total of 36,017 contigs derived from 33,565,182 reads were obtained and subjected to BLASTX search against the GenBank sequence database as of January 2019. Viruses commonly found in stone fruits, i.e., apple stem pitting virus, apple green crinkle-associated virus, apricot latent virus (foveaviruses), and apple stem grooving virus (a capillovirus), were detected. In addition, five contigs with amino acid sequence homologies to P1-P4 of known emaraviruses and the P7 of High Plains wheat mosaic virus (Tatineni et al. 2014) were detected and designated as PEV-Jp. The complete nucleotide (nt) sequences of the five segments of PEV-Jp were determined by Sanger sequencing of cloned reverse transcription (RT)-PCR amplification products using the primers shown in Supplementary Table S1; the 5'- and 3'-terminal sequences were RACE verified (Takara Bio, Shiga, Japan). In pairwise comparisons, the complete RNA1 to RNA5 of PEV-Jp (LC554756-760) shared 90.7% to 98.7% nt identities with those of PCLSaV-CG1 (MK602177-181), indicating that PEV-Jp is an isolate of PCLSaV. Using newly designed segment-specific primers (Supplementary Table S1), 12 symptomatic Japanese pear trees cv. "Kosui" sampled in 2020 from the same nursery tested positive for PCLSaV by RT-PCR while 12 symptomless trees were negative for the virus. Similar chlorotic spots, sometimes accompany necrotic spots, were observed on European pear (Pyrus communis) cv. "Le Lectier." (Fig. S1F) in Niigata in 2019; PCLSaV was detected by RT-PCR in leaf tissue samples from symptomatic trees (n = 3/3) but not in symptomless trees (n = 0/2). No vector for PCLSaV has been identified (Liu et al. 2020) but acaricide sprays in the early spring are effective for preventing occurrence of chlorotic spots in pear orchards (Nakai et al. 2018). Since the infestations of Eriophyes chibaensis Kadono, an eriophyid mite often observed on the Japanese pear (Fig. S1G to S1I) (Kadono, 1981), has been associated with occurrences of the chlorotic spots (Shimizu et al. 2019), samples of E. chibaensis individuals were collected from PCLSaV-positive Japanese pear cvs. "Akizuki" and "Kosui"and P. communis cv. "Le Lectier." for total nucleic acid isolations via phenol-chloroform extraction, followed by quantitative RT-PCR (Supplementary Table S1). The expected RNA1 and RNA5 specific 150 bp products were detected from mite samples collected from Akizuki (n = 6/12), Kosui (n = 13/18), and Le Lectier (n = 6/8). The results indicate that E. chibaensis can ingest PCLSaV and may be a potential vector for the virus, although additional experiments are needed to demonstrate its vector competency. To our knowledge, this is the first report of PCLSaV in Japan and the first report of its detection in E. chibaensis.

Genetic variability of grapevine fabavirus variants and development of a broad-spectrum assay for their detection.

Complete RNA1 and RNA2 sequences of two and nearly complete genome sequences of six new variants of grapevine fabavirus found in Japan were compared to those of previously reported variants. Negative selection pressure was suggested, and no recombination events were detected in either RNA1 or RNA2. The first 18 nucleotides in both RNAs were predicted to form a stem-loop structure. The variants could be genetically divided into four groups based on RNA1 and two based on RNA2. A broad-spectrum reverse transcription polymerase chain reaction assay using a primer pair designed based on an RNA2 consensus sequence was able to detect all of the known variants.

Perilla Mosaic Virus Is a Highly Divergent Emaravirus Transmitted by Shevtchenkella sp. (Acari: Eriophyidae).

Shiso (Perilla frutescens var. crispa) is widely grown as an important vegetable or herb crop in Japan. Beginning around the year 2000, occurrences of severe mosaic symptoms on shiso were documented and gradually spread across Kochi Prefecture, one of four major shiso production areas in Japan. Next generation sequencing and cloning indicated the presence of a previously unknown virus related to the members of the genus Emaravirus, for which we proposed the name Perilla mosaic virus (PerMV). The genome of PerMV consists of 10 RNA segments, each encoding a single protein in the negative-sense orientation. Of these proteins, P1, P2, P3a, P3b, P4, and P5 show amino acid sequence similarities with those of known emaraviruses, whereas no similarities were found in P6a, P6b, P6c, and P7. Characteristics of the RNA segments as well as phylogenetic analysis of P1 to P4 indicate that PerMV is a distinct and highly divergent emaravirus. Electron microscopy observations and protein analyses corresponded to presence of an emaravirus. Transmission experiments demonstrated that an eriophyid mite, Shevtchenkella sp. (family Eriophyidae), transmits PerMV with a minimum 30-min acquisition access period. Only plants belonging to the genus Perilla tested positive for PerMV, and the plant-virus-vector interactions were evaluated. The nucleotide sequences reported here are available in the DDBJ/ENA/GenBank databases under accession numbers LC496090 to LC496099.

Complete genome sequence of a novel putative polerovirus detected in grapevine.

Next-generation sequencing detected a novel virus from grapevine cultivar 'Kishmish Chjornyj' from Russia. Its complete genome sequence of 5625 nucleotides includes seven open reading frames encoding seven putative proteins similar to those of members of the genus Polerovirus in the family Luteoviridae. The novel virus showed graft-transmissibility and was tentatively named "grapevine polerovirus 1" (GPoV-1). Phylogenetic analysis using complete genome sequences of GPoV-1 and members of the family Luteoviridae indicated that although GPoV-1 is a member of the genus Polerovirus, it is unique within its clade. GPoV-1 is the first polerovirus detected in grapevine.

Characterization of a distinct variant of hop stunt viroid and a new apscaviroid detected in grapevines.

Using next-generation sequencing, we detected a novel variant of hop stunt viroid (HSVd) in grapevine 'Chenin blanc' (Vitis vinifera L.) and a new viroid species in 'Nachubearmarie' (Vitis labrusca L. × V. vinifera). The HSVd variant termed HSVd-CB has 296 nucleotides with up to 82% sequence identity with other HSVd variants such as HSVd-AP1 (Genbank accession EF523826). Many nucleotide changes, deletions, and insertions were sporadically found in HSVd-CB relative to HSVd-AP1 in the pathogenic and variable domains. Although several variations were also found in the central domain, few variations were found in the terminal left and right domains, including no variations in the terminal conserved hairpin. The new viroid, tentatively termed Japanese grapevine viroid (JGVd), has 367 nucleotides and has genetic features characteristic of the genus Apscaviroid. JGVd shared the highest nucleotide sequence identity (68%) with a persimmon latent viroid (PLVd) in its overall genome. However, the JGVd sequence shows chimerism with the partial genomes of other apscaviroids from apple, grapevine, and citrus. Phylogenetic analyses showed that only HSVd-CB formed a distinct branch from the cluster of the other HSVd variants and JGVd and PLVd formed a distinct branch from all other grapevine-infecting apscaviroids.

Complete nucleotide sequence of a new isolate of passion fruit woodiness virus from Western Australia.

We determined the complete genome sequence of the passion fruit woodiness virus Gld-1 isolate (PWV-Gld-1) from Australia and compared it with that of PWV-MU-2, another Australian isolate of PWV. The genomes shared high sequence identity in both the complete nucleotide sequence and the ORF amino acid sequence. All of the cleavage sites of each protein were identical to those of MU-2, and the sequence identity for the individual proteins ranged from 97.2 % to 100.0 %. However, the 5' untranslated region (5'UTR) of the Gld-1 isolate shared only 46.8 % sequence identity with that of PWV-MU-2 and was 177 nucleotides shorter. Re-sequencing of the 5'UTR of MU-2 revealed that the 5' end of the original sequence includes an artifact generated by deep sequencing.