Small-RNA analysis of pre-basic mother plants and conserved accessions of plant genetic resources for the presence of viruses.

Pathogen-free stocks of vegetatively propagated plants are crucial in certified plant production. They require regular monitoring of the plant germplasm for pathogens, especially of the stocks maintained in the field. Here we tested pre-basic mother plants of Fragaria, Rubus and Ribes spp., and conserved accessions of the plant genetic resources of Rubus spp. maintained at research stations in Finland, for the presence of viruses using small interfering RNA (siRNA) -based diagnostics (VirusDetect). The advance of the method is that unrelated viruses can be detected simultaneously without resumptions of the viruses present. While no virus was detected in pre-basic mother plants of Fragaria and Ribes species, rubus yellow net virus (RYNV) was detected in pre-basic mother plants of Rubus. Raspberry bushy dwarf virus (RBDV), black raspberry necrosis virus (BRNV), raspberry vein chlorosis virus (RVCV) and RYNV were detected in the Rubus genetic resource collection. The L polymerase encoding sequence characterized from seven RVCV isolates showed considerable genetic variation. The data provide the first molecular biological evidence for the presence of RYNV in Finland. RYNV was not revealed in virus indexing by indicator plants, which suggests that it may be endogenously present in some raspberry cultivars. In addition, a putative new RYNV-like badnavirus was detected in Rubus spp. Blackcurrant reversion virus (BRV) and gooseberry vein banding associated virus (GVBaV) were detected in symptomatic Ribes plants grown in the field. Results were consistent with those obtained using PCR or reverse transcription PCR and suggest that the current virus indexing methods of pre-basic mother plants work as expected. Furthermore, many new viruses were identified in the collections of plant genetic resources not previously tested for viruses. In the future, siRNA-based diagnostics could be a useful supplement for the currently used virus detection methods in certified plant production and thus rationalize and simplify the current testing system.

Molecular characterization and detection of a new closterovirus identified from blackcurrant by high-throughput sequencing.

Two large contigs with high sequence similarities to several closteroviruses were identified by high-throughput sequencing from a blackcurrant plant. The complete genome of this new virus was determined to be 17,320 nucleotides. Its genome contains ten open reading frames (ORF) that include, in the 5'-3' direction, a large ORF encoding a putative viral polyprotein (ORF 1a) and nine ORFs that encode RNA-dependent RNA polymerase (RdRp, ORF 1b), p6 (ORF 2), heat shock protein 70-like protein (Hsp70h, ORF 3), Hsp-90-like protein (p61, ORF 4), CP minor (ORF 5), CP (ORF 6), p17 (ORF 7), p11 (ORF 8), and p26 (ORF 9), respectively. BCCV-1 shares nucleotide sequence identities of 43-45% with other 9 closteroviruses at genome sequences. The amino acid sequence identities between BCCV-1 and the closteroviruses were 49-55% (RdRp), 37-41% (Hsp70h), 19-33% (p61), 26-38% (CPm), and 19-28% (CP), respectively. Phylogenetic analysis of Hsp70h sequences placed the new virus with members of genus Closterovirus in the same group. The results indicate that this new virus, which is provisionally named as Blackcurrant closterovirus 1, should represent a new species of the genus Closterovirus. A RT-PCR was developed and used to detect BCCV-1 in more germplasm accessions of Ribes spp.

A Virus in American Blackcurrant (Ribes americanum) with Distinct Genome Features Reshapes Classification in the Tymovirales.

A novel virus with distinct genome features was discovered by high throughput sequencing in a symptomatic blackcurrant plant. The virus, tentatively named Ribes americanum virus A (RAVA), has distinct genome organization and molecular features bridging genera in the order Tymovirales. The genome consists of 7106 nucleotides excluding the poly(A) tail. Five open reading frames were identified, with the first encoding a putative viral replicase with methyl transferase (MTR), AlkB, helicase, and RNA dependent RNA polymerase (RdRp) domains. The genome organization downstream of the replicase resembles that of members of the order Tymovirales with an unconventional triple gene block (TGB) movement protein arrangement with none of the other four putative proteins exhibiting significant homology to viral proteins. Phylogenetic analysis using replicase conserved motifs loosely placed RAVA within the Betaflexiviridae. Data strongly suggest that RAVA is a novel virus that should be classified as a species in a new genus in the Betaflexiviridae or a new family within the order Tymovirales.

Molecular Characterization of Divergent Closterovirus Isolates Infecting Ribes Species.

Five isolates of a new member of the family Closteroviridae, tentatively named blackcurrant leafroll-associated virus 1 (BcLRaV-1), were identified in the currant. The 17-kb-long genome codes for 10 putative proteins. The replication-associated polyprotein has several functional domains, including papain-like proteases, methyltransferase, Zemlya, helicase, and RNA-dependent RNA polymerase. Additional open reading frames code for a small protein predicted to integrate into the host cell wall, a heat-shock protein 70 homolog, a heat-shock protein 90 homolog, two coat proteins, and three proteins of unknown functions. Phylogenetic analysis showed that BcLRaV-1 is related to members of the genus Closterovirus, whereas recombination analysis provided evidence of intraspecies recombination.

Blackcurrant Leaf Chlorosis Associated Virus: Evidence of the Presence of Circular RNA during Infections.

Blackcurrant leaf chlorosis associated virus (BCLCaV) was detected recently by next-generation sequencing (NGS) and a new and distinct species in the genus Idaeovirus was proposed. Analysis of NGS-derived paired-end reads revealed the existence of bridge reads encompassing the 3'-terminus and 5'-terminus of RNA-2 or RNA-3 of BCLCaV. The full RNA-2 or RNA-3 could be amplified using outward facing or abutting primers; also, RNA-2/RNA-3 could be detected even after three consecutive RNase R enzyme treatments, with denaturation at 95 °C preceding each digestion. Evidence was obtained indicating that there are circular forms of BCLCaV RNA-2 and RNA-3.

Molecular characterization of a novel rhabdovirus infecting blackcurrant identified by high-throughput sequencing.

A large contig with sequence similarities to several nucleorhabdoviruses was identified by high-throughput sequencing analysis from a black currant (Ribes nigrum L.) cultivar. The complete genome sequence of this new nucleorhabdovirus is 14,432 nucleotides long. Its genomic organization is very similar to those of unsegmented plant rhabdoviruses, containing six open reading frames in the order 3'-N-P-P3-M-G-L-5. The virus, which is provisionally named "black currant-associated rhabdovirus", is 41-52% identical in its genome nucleotide sequence to other nucleorhabdoviruses and may represent a new species in the genus Nucleorhabdovirus.

Complete genome sequence and analysis of blackcurrant leaf chlorosis associated virus, a new member of the genus Idaeovirus.

Blackcurrant leaf chlorosis associated virus (BCLCaV) was isolated from symptomatic blackcurrants (Ribes nigrum cv. Baldwin). The virus has a genome organization similar to that of raspberry bushy dwarf virus (RBDV), the type member of the genus Idaeovirus. The RNA-1of this virus encodes the replicase complex (ORF1, Mr 197 kDa), while RNA-2 encodes a putative movement protein (ORF2a, Mr 38.8 kDa) and the putative coat protein (ORF2b, Mr 30 kDa). A concatenated form of BCLCaV RNA-2 was detected by next-generation sequencing and confirmed by RT-PCR. BCLCaV is a new member of the genus Idaeovirus.

Digital RT-PCR method for hepatitis A virus and norovirus quantification in soft berries.

Raw fruits may harbour many pathogens of public health concern including enteric viruses, which are the leading cause of foodborne outbreaks. Recently, consumption of soft berries has been associated with increasing reports of norovirus and hepatitis A virus outbreaks in Europe. Due to their low infectious doses and low concentrations in food samples, an efficient and sensitive analytical method is required for virus detection. In this study we explored two different ways to improve the reference method for the detection of enteric viruses in soft fruits (ISO/TS 15216-1; 15216-2): an additional purification step after RNA extraction; and the detection of enteric viral genome by an absolute quantification method (microfluidic digital RT-PCR). Both of these approaches led to an improvement of enteric virus detection in soft berries by greatly lowering PCR inhibition, raising viral extraction efficiencies and enabling validation of controls using pure RNA extracts. The PCR inhibitor removal step can be easily included in the routine method. Absolute quantification by digital RT-PCR may be a relevant alternative method to standardize quantification of enteric viruses in foodstuffs.

Molecular characterization of a novel capillovirus from red currant.

The complete nucleotide sequence of a novel virus from red currant, provisionally named currant virus A (CuVA), was determined. The genome is 7925 nucleotides long and has a 3'-poly(A) tail. The genome organization with two overlapping open reading frames is similar to that of capilloviruses, but the CuVA genome is about 600 nucleotides longer than that of the longest known capillovirus, cherry virus A. The RNA is predicted to encode a polyprotein with domains of methyltransferase, 2OG-Fe(II) oxygenase, papain-like protease, RNA helicase, RdRp, and capsid protein. Phylogenetic analysis confirms that CuVA is a new and distinct member of the genus Capillovirus.

Complete genome sequence of currant latent virus (genus Cheravirus, family Secoviridae).

The complete nucleotide sequences of RNA1 and RNA2 of the Holandský cervený strain of currant latent virus (CuLV) were determined using next-generation sequencing. The RNA1 is predicted to encode a polyprotein 2124 amino acid long with RdRp motifs. The RNA2 is predicted to encode a polyprotein 957 amino acid long with homology to the capsid protein of apple latent spherical virus and cherry rasp leaf virus. Phylogenetic analysis confirms that CuLV is a new distinct member of the genus Cheravirus.

Complete genome sequence of a strain of Actinidia virus X detected in Ribes nigrum cv. Baldwin showing unusual symptoms.

A Ribes-infecting strain of the potexvirus Actinidia virus X (AVX-RV3124) was isolated from black currant plants (Ribes nigrum cv. Baldwin, accession 3124-03D1) showing symptoms of leaf chlorosis and deformity. This is the first description of the complete genome sequence of an isolate of this virus and the first detection of a potexvirus in Ribes. The genome of AVX-RV3124 consists of 6,888 nucleotides (nt) excluding the poly(A) tail at the 3' terminus. When AVX-RV3124 was compared to the available sequence of the AVX isolate in GenBank (accession no. KC568202), two large indel events (72 nt and 33 nt) were identified in the replicase coding region of RV3124. Evidence of recombination was detected upstream of the 3' terminus of the replicase gene of both virus isolates, providing further evidence of a common origin.

Outbreak of Hepatitis A in Italy Associated with Frozen Redcurrants Imported from Poland: A Case Study.

Hepatitis A virus (HAV) was detected in a batch of imported non-packaged frozen redcurrants purchased in a Bari grocery. Sequence and phylogenetic analysis showed the HAV strain clustered tightly with the HAV strain from the 2013 Italian epidemic, providing additional evidence that frozen redcurrants were the main vehicle of the HAV outbreak.

Molecular analysis of the complete genomic sequences of four isolates of Gooseberry vein banding associated virus.

The presence of Gooseberry vein banding associated virus (GVBaV), a badnavirus in the family Caulimoviridae, is strongly correlated with gooseberry vein banding disease in Ribes spp. In this study, full-length genomic sequences of four GVBaV isolates from different hosts and geographic regions were determined to be 7649-7663 nucleotides. These isolates share identities of 96.4-97.3% for the complete genomic sequence, indicating low genetic diversity among them. The GVBaV genome contains three open reading frames (ORFs) on the plus strand that potentially encode proteins of 26, 16, and 216 kDa. The size and organization of GVBaV ORFs 1-3 are similar to those of most other badnaviruses. The putative amino acid sequence of GVBaV ORF 3 contained motifs that are conserved among badnavirus proteins including aspartic protease, reverse transcriptase, and ribonuclease H. The highly conserved putative plant tRNA(met)-binding site is also present in the 935-bp intergenic region of GVBaV. The identities of the genomic sequences of GVBaV and other badnaviruses range from 49.1% (Sugarcane bacilliform Mor virus) to 51.7% (Pelargonium vein banding virus, PVBV). Phylogenetic analysis using the amino acid sequence of the ORF 3 putative protein shows that GVBaV groups most closely to Dioscorea bacilliform virus, PVBV, and Taro bacilliform virus. These results confirm that GVBaV is a pararetrovirus of the genus Badnavirus in the family Caulimoviridae.

Translation mechanisms involving long-distance base pairing interactions between the 5' and 3' non-translated regions and internal ribosomal entry are conserved for both genomic RNAs of Blackcurrant reversion nepovirus.

One of the mechanisms of functioning for viral cap-independent translational enhancers (CITEs), located in 3' non-translated regions (NTRs), is 3' NTR-5' leader long-distance base pairing. Previously, we have demonstrated that the RNA2 3' NTR of Blackcurrant reversion nepovirus (BRV) contains a CITE, which must base pair with the 5' NTR to facilitate translation. Here we compared translation strategies employed by BRV RNA1 and RNA2, by using mutagenesis of the BRV NTRs in firefly luciferase reporter mRNA, in plant protoplasts. Translation mechanisms, based on 3' CITEs, 5' NTR-3' NTR base pairing and poly(A) tail-stimulation, were found conserved between RNA1 and RNA2. The 40S ribosomal subunit entry at the RNA1 leader occurred, at least partly, via an internal ribosomal entry site (IRES). Two RNA1 leader segments complementary to plant 18S rRNA enhanced translation. A model for BRV RNAs translation, involving IRES-dependent 40S subunit recruitment and long-distance 5' NTR-3' NTR base pairing, is discussed.

Mixed infection of black currant (Ribes nigrum L.) plants with Blackcurrant reversion associated virus and rhabdovirus-like particles with symptoms of black currant reversion disease.

Black currant plants of cvs. Black Smith and Karlstejnský dlouhohrozen showing symptoms of severe Russian (R) form of black currant reversion disease (BCRD) were found in 1999-2000 in the Czech Republic. Five selected plants of both cultivars originating from two distant loci were tested by polymerase chain reaction (PCR) for presence of the Blackcurrant reversion associated virus (BRAV), the causal agent of BCRD. In all plants, virus-specific 215 nt cDNA fragments proving the presence of BRAV were obtained. Moreover, in two of those five black currant plants, rhabdovirus-like particles were found in ultrathin sections by electron microscopical examinations. The particles measured 200-347 nm by 64-90 nm. They occurred mostly within nuclei of parenchyma cells of vascular bundles as single particles, rafts of particles, but also in aggregates. They were found also in the perinuclear space and occasionally directly in the cytoplasm. Clusters of particles either within the nucleus or in the perinuclear space were membrane-bound. We bring evidence on the occurrence of the severe (R) form of BCRD and the first evidence of BRAV in the Czech Republic.