BackgroundGrapevine leafroll disease is one of the most economically important viral diseases affecting grape production worldwide. Grapevine leafroll-associated virus 4 (GLRaV-4, genus Ampelovirus, family Closteroviridae) is one of the six GLRaV species documented in grapevines (Vitis spp.). GLRaV-4 is made up of several distinct strains that were previously considered as putative species. Currently known strains of GLRaV-4 stand apart from other GLRaV species in lacking the minor coat protein.MethodsIn this study, the complete genome sequence of three strains of GLRaV-4 from Washington State vineyards was determined using a combination of high-throughput sequencing, Sanger sequencing and RACE. The genome sequence of these three strains was compared with corresponding sequences of GLRaV-4 strains reported from other grapevine-growing regions. Phylogenetic analysis and SimPlot and Recombination Detection Program (RDP) were used to identify putative recombination events among GLRaV-4 strains.ResultsThe genome size of GLRaV-4 strain 4 (isolate WAMR-4), strain 5 (isolate WASB-5) and strain 9 (isolate WALA-9) from Washington State vineyards was determined to be 13,824 nucleotides (nt), 13,820 nt, and 13,850 nt, respectively. Multiple sequence alignments showed that a 11-nt sequence (5′-GTAATCTTTTG-3′) towards 5′ terminus of the 5′ non-translated region (NTR) and a 10-nt sequence (5′-ATCCAGGACC-3′) towards 3′ end of the 3′ NTR are conserved among the currently known GLRaV-4 strains. LR-106 isolate of strain 4 and Estellat isolate of strain 6 were identified as recombinants due to putative recombination events involving divergent sequences in the ORF1a from strain 5 and strain Pr.ConclusionGenome-wide analyses showed for the first time that recombinantion can occur between distinct strains of GLRaV-4 resulting in the emergence of genetically stable and biologically successful chimeric viruses. Although the origin of recombinant strains of GLRaV-4 remains elusive, intra-species recombination could be playing an important role in shaping genetic diversity and evolution of the virus and modulating the biology and epidemiology of GLRaV-4 strains.
Vineyard surveys were conducted for three consecutive seasons in eastern Washington State, the major grapevine-growing region in the state, to document the occurrence of Grapevine leafroll-associated virus 3 (GLRaV-3) and Grapevine red blotch virus (GRBV). The majority of samples were collected from red-berried wine grape (Vitis vinifera) cultivars exhibiting symptoms of or suspected for grapevine leafroll (GLD) and red blotch (GRBD) diseases. A limited number of samples from white-berried cultivars were collected randomly due to the lack of visual symptoms. Samples were collected from a total of 2,063 grapevines from 18 red-berried cultivars and seven white-berried cultivars planted in eight American Viticultural Areas and tested for GLRaV-3 and GRBV using RT-PCR and PCR, respectively. The results showed 67.77% and 6.01% of total samples positive for GLRaV-3 and GRBV, respectively, and 9.06% of samples positive for both viruses. About 17% of samples tested negative for the two viruses, but some of these samples were positive for GLRaV-2 and GLRaV-4. Overall results indicated that GLRaV-3 was more common than GRBV, independent of cultivars and the geographic origin of samples. Due to variability in symptoms in red-berried cultivars, virus-specific diagnostic assays were deemed necessary for reliable identification of GLRaV-3 and GRBV and to differentiate GLD and GRBD symptoms from those induced by biotic and abiotic stresses in vineyards. A multiplex PCR protocol was developed for simultaneous detection of GLRaV-3 and GRBV in grapevine samples. A global phylogenetic analysis of GRBV genome sequences revealed segregation of virus isolates from Washington State vineyards into two distinct clades, with the majority of isolates belonging to clade II.
Grapevine red globe virus (GRGV; genus Maculavirus, family Tymoviridae) has been reported in grapevines (Vitis spp.) from Italy, Greece, France, China, Spain and Germany and in California, U.S.A. (Sabanadzovic et al. 2000; Cretazzo et al. 2017; Fan et al. 2016; Ruiz-Garcia et al., 2018). During surveys of grapevine nurseries, a total of 241 composite samples, each consisting of four petioles from mature leaves/vine from five asymptomatic grapevines, from 33 grapevine (Vitis vinifera) cultivars were collected. Total RNA isolated from these samples using Spectrum Total RNA isolation kit (Sigma-Aldrich, St. Louis, MO) was subjected to high-throughput sequencing (HTS) on an Illumina HiSeq2500 or Novaseq 6000 platforms in paired-end mode (Genomics Core Facility, Huntsman Cancer Institute, Utah University, Salt Lake City, UT). After trimming raw reads based on quality and ambiguity, the paired-end quality reads of approximately 120 (HiSeq) or 145 (Novaseq) base pair (bp) length were assembled de novo into a pool of contigs (CLC Genomics workbench 12). These contigs were subjected to BLASTn analysis against the nonredundant virus database from GenBank (http://www.ncbi.nlm.nih.gov/blast). A total of 49 contig sequences, ranging from 200 to 1645 bp in length with an average coverage ranging up to 418.7, aligning with GRGV genome were detected in cvs. Aglianico, Cabernet franc, Pinot gris and Riesling. BLASTn analysis of contigs greater than 500 bp length showed sequence identity between 88.5% and 95% with corresponding GRGV sequences reported from other countries. These results indicated the presence of genetically distinct isolates of GRGV. HTS data also revealed coinfection of GRGV in all samples with one or more of the following virus and/or viroids: grapevine rupestris stem pitting associated virus, grapevine rupestris vein feathering virus, hop stunt viroid or grapevine yellow speckle viroid-1. To further confirm infection by GRGV, total RNA was extracted from two asymptomatic Pinot gris vines previously tested positive in HTS using Spectrum Total RNA isolation kit and subjected to reverse transcription-PCR using primers specific to the replicase polyprotein gene of the virus (RG4847F: 5’-TGGTCTGTTGTTCGCATCTT-3’ and RG6076R: 5’ CGGAAGGGGAAGCATTGATCT-3’, Cretazzo et al., 2017). Sequence analysis of the approximately1,250 bp amplicons (accession number MT749359) showed 91.2 % nt sequence identity with corresponding sequence of GRGV isolate from Brazil (KX828704.1). To our knowledge, this is the first report of GRGV in Washington State. Together with the report of the occurrence of GRGV in California (Sabanadzovic et al. 2000), these/span> results indicate wide geographical distribution of the virus. Although GRGV can cause asymptomatic infections in grapevines (Martelli et al. 2002), the economic importance of GRGV as single or coinfections with other viruses needs to be examined to assess the potential significance of the virus to grape production and grapevine certification programs.
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