Identification of rehmannia virus 1, a novel putative member of the genus Closterovirus, from Rehmannia glutinosa.

Transcriptome sequencing analysis of a symptomatic Rehmannia glutinosa plant revealed a virome containing two known RNA viruses and one novel virus. In this study, we examined the molecular and biological characteristics of the novel virus. The complete genome of the novel virus is composed of monopartite single-stranded RNA of 15,322 nucleotides with 69% nucleotide sequence identity (with 68% coverage) to tobacco virus 1. Its genome organization is typical of the members of the genus Closterovirus, containing nine putative open reading frames. Molecular and phylogenetic analyses of the genome and encoded protein sequences strongly support that the identified virus is a new species of the genus Closterovirus in the family Closteroviridae. The name rehmannia virus 1 (ReV1) is proposed for this novel virus.

Complete nucleotide sequence and genome organization of peach virus D, a putative new member of the genus Marafivirus.

The complete nucleotide sequence of peach virus D (PeVD) from Prunus persica was determined. The PeVD genome consists of 6,612 nucleotides excluding the 3' poly(A) tail and contains a single open reading frame coding for a polyprotein of 227 kDa. Sequence comparisons and phylogenetic analysis revealed that PeVD is most closely related to viruses in the genus Marafivirus, family Tymoviridae. The complete nucleotide and CP amino acid sequences of PeVD were most similar (51.1-57.8% and 32.2-48.0%, respectively) to members of the genus Marafivirus, suggesting that PeVD is a new member of this genus.

Tyrosinase inhibitory components from Aloe vera and their antiviral activity.

A new compound, 9-dihydroxyl-2'-O-(Z)-cinnamoyl-7-methoxy-aloesin (1), and eight known compounds (2-9) were isolated from Aloe vera. Their structures were elucidated using 1D/2D nuclear magnetic resonance and mass spectra. Compound 9 exhibited reversible competitive inhibitory activity against the enzyme tyrosinase, with an IC50 value of 9.8 ± 0.9 µM. A molecular simulation revealed that compound 9 interacts via hydrogen bonding with residues His244, Thr261, and Val283 of tyrosinase. Additionally, compounds 3 and 7 were shown by half-leaf assays to exhibit inhibitory activity towards Pepper mild mottle virus.

Genomic detection and characterization of a Korean isolate of Little cherry virus 1 sampled from a peach tree.

A peach tree (Prunus persica) showing yellowing and mild mottle symptoms was analyzed using high-throughput RNA sequencing to determine the causal agent. A total of nine contigs similar to Little cherry virus 1 (LChV-1) were produced, and all the contigs showed nucleotide sequence identity (lower than 83 %) and query coverage (higher than 73 %) with LChV-1. The symptomatic peach sample was confirmed to be infected with LChV-1-like virus as a result of reverse transcription-polymerase chain reaction using primers designed based on sequences of the contigs. Occurrence of diseases caused by LChV-1 in Prunus species has been reported. Complete 16,931-nt genome of the peach virus composed of eight open reading frames was determined, and conserved domains including viral methyltransferase, viral helicase 1, RNA-dependent RNA polymerase (RdRp), heat shock protein 70 homologue (HSP70h), HSP90h and closterovirus coat protein (CP) were identified. Phylogenetic trees based on amino acid sequence alignments between the peach virus and members in the family Closteroviridae showed that the virus was most similar to LChV-1. Pairwise comparisons based on amino acid sequence alignments of three genes (RdRp, HSP70h and CP) between the peach virus and LChV-1 isolates showed the highest amino acid sequence identities, with 84.32 % for RdRp, 85.48 % for HSP70h and 80.45 % for CP. These results indicate that this is the first report for the presence of LChV-1 in South Korea and may be one of the first reports of natural infection of peach by LChV-1. Although it is not clear if LChV-1 YD isolate was responsible for specific symptoms observed, detection and characterization of the peach tree-infecting LChV-1 in South Korea would be useful in terms of the epidemiology of LChV-1.

Soluble Epoxide Hydrolase Inhibitory Activity of Selaginellin Derivatives from Selaginella tamariscina.

Selaginellin derivatives 1-3 isolated from Selaginella tamariscina were evaluated for their inhibition of soluble epoxide hydrolase (sEH) to demonstrate their potential for the treatment of cardiovascular disease. All selaginellin derivatives (1-3) inhibited sEH enzymatic activity and PHOME hydrolysis, in a dose-dependent manner, with IC50 values of 3.1 ± 0.1, 8.2 ± 2.2, and 4.2 ± 0.2 µM, respectively. We further determined that the derivatives function as non-competitive inhibitors. Moreover, the predicted that binding sites and interaction between 1-3 and sEH were solved by docking simulations. According to quantitative analysis, 1-3 were confirmed to have high content in the roots of S. tamariscina; among them, selaginellin 3 exhibited the highest content of 189.3 ± 0.0 µg/g.

Genetic variability in the coat protein genes of Cymbidium mosaic virus isolates from orchids.

The variability in the nucleotide (nt) and amino acid (aa) sequences of the coat protein (CP) of Cymbidium mosaic virus (CymMV), which naturally infects orchids worldwide, was investigated. The CP genes of 55 CymMV isolates originating from different locations in Korea were amplified using RT-PCR and sequenced. The encoded CP consists of 223 aa. The CP sequences of the Korean isolates were compared with those of previously published CymMV isolates originating from different countries at both nt and aa levels. The Korean isolates shared 74.9-98.3 and 52.7-100% CP homology with CymMV isolates from other countries at the nt and aa levels, respectively. No particular region of variability could be found in either grouping of viruses. In the deduced CymMV CP aa sequence, the C-terminal region was more divergent than the N-terminal. The phylogenetic tree analysis based on nt sequence diversity of CP genes of CymMV isolates supported the hypothesis that CymMV isolates were divided into two subgroups. However, these subgroups were not formed by phylogenetic tree analysis of CP aa sequences. There was no distinct correlation between geographical locations and specific sequence identity, while recombination analysis revealed that there were no intra-specific recombination events among CymMV isolates.

Molecular characterization of an unusual new plant RNA virus reveals an evolutionary link between two different virus families.

An unusual novel plant virus provisionally named goji berry chlorosis virus (GBCV) was isolated from goji berry plants (Lycium chinense Miller) showing chlorosis symptoms and its complete genome sequence was determined. The viral genome consists of a positive-sense single-stranded RNA of 10,100 ribonucleotides and contains six open reading frames (ORFs). Electron microscopy showed that the viral genome is packaged as a filamentous particle with an average length of approximately 850 nm. Phylogenetic analysis and amino acid similarity analysis of the encoded ORFs revealed that this new virus could be classified in an intermediate position between the families Benyviridae and Virgaviridae. The GBCV 200-kDa replicase (ORF1) is more similar to benyvirus replicases than to virgavirus replicases, while its 17-kDa coat protein (CP, ORF2) is more closely related with virgavirus CPs than benyvirus CPs. ORF3 was predicted to produce a C-terminally extended protein from ORF2 via frameshifting. While ORF4 (45-kDa), ORF5 (44-kDa), and ORF6 (16-kDa) have no apparent sequence homology with other known viruses, ORF5 is predicted to encode a movement protein (MP) that is phylogenetically related to the furovirus MP and ORF6 was experimentally proven to encode a viral suppressor of RNA silencing. These unusual characteristics suggest that GBCV may represent an evolutionary link between the families Benyviridae and Virgaviridae and indicate the existence of a novel, unidentified virus group.

First report of cherry virus A infecting Prunus mume in South Korea.

We report the detection of cherry virus A (CVA) in a Prunus mume sample using Illumina HiSeq 2500 paired-end RNA sequencing. CVA isolate OC shared highest sequence identity with CVA isolate J, which was recently identified in P. armeniaca in Japan. To the best of our knowledge, this is the first report of CVA infecting P. mume in Korea and the first complete genome sequence of CVA isolated from P. mume in the world.

α-Glucosidase inhibition by prenylated and lavandulyl compounds from Sophora flavescens roots and in silico analysis.

The enzyme α-glucosidase is a good drug target for the treatment of diabetes mellitus. Four minor flavonoids (1-4) from roots of Sophora flavescens showed the inhibitory activity, with IC50 values ranging from 11.0±0.3 to 50.6±1.3µM, toward α-glucosidase. An enzyme kinetics analysis of them revealed that the compounds 1 and 4 were non-competitive, and compounds 2 and 3 were un-competitive inhibitors. For molecular docking, 3-dimensional structure of α-glucosidase was built by homology modeling. As the result, four compounds 1-4 were confirmed to interact into common binding site of α-glucosidase. In addition, all of the four prenylated and lavandulyl compounds (1-4) were abundant in an ethyl acetate fraction separated from a methanol extract, and the potential inhibitor (3) was extracted best using tetrahydrofuran.

Complete Nucleotide Sequences and Genome Organization of Two Pepper Mild Mottle Virus Isolates from Capsicum annuum in South Korea.

The complete genome sequences of pepper mild mottle virus (PMMoV)-P2 and -P3 were determined by the Sanger sequencing method. Although PMMoV-P2 and PMMoV-P3 have different pathogenicity in some pepper cultivars, the complete genome sequences of PMMoV-P2 and -P3 are composed of 6,356 nucleotides (nt). In this study, we report the complete genome sequences and genome organization of PMMoV-P2 and -P3 isolates from pepper species in South Korea.

Identification of Leonurus sibiricus as a Weed Reservoir for Three Pepper-Infecting Viruses.

In plant virus ecology, weeds are regarded as wild reservoirs of viruses and as potential sources for insect-mediated transmission of viruses. During field surveys in 2013-2014, three Leonurus sibiricus plants showing virus-like symptoms were collected from pepper fields in Daegu, Seosan, and Danyang in Korea. Molecular diagnosis assays showed that the collected L. sibiricus samples were infected with either Tomato spotted wilt virus (TSWV), Pepper mild mottle virus (PMMoV), or Beet western yellow virus (BWYV), respectively. Since this is the first identification of TSWV, PMMoV, and BWYV from L. sibiricus, complete genome sequences of three virus isolates were determined to examine their phylogenetic relationships with the previously reported strains and isolates. Phylogenetic analyses performed using full genome sequences of the viruses showed the isolates of TSWV and PMMoV obtained from L. sibiricus are closely related to the pepper isolates of the corresponding viruses. Our results suggest that L. sibiricus could act an alternative host and reservoir of viruses that cause damages in pepper fields.

Molecular detection and characterization of a divergent isolate of Plantago asiatica mosaic virus in Plantago asiatica.

Four samples of Plantago asiatica showing mottle or mottled yellowing symptoms were collected and three of them were confirmed to be infected with Plantago asiatica mosaic virus (PlAMV) by Illumina HiSeq 2500 paired-end RNA sequencing. Consequently, the complete genomic sequence of a Korean isolate of PlAMV (PlAMV isolate Gunwi) from P. asiatica was determined. The nucleotide sequence of PlAMV-Gunwi was most closely related to a Russian isolate of PlAMV (PlAMV-Ru) collected from P. asiatica but highly dissimilar (~23 %) to other isolates of PlAMV from other plant species. Pairwise comparisons revealed that the complete replicase protein and coat protein of PlAMV-Gunwi share 85.15-91.20 and 84.54-90.82 % amino acid sequence identities, respectively, to the corresponding proteins of other PlAMV isolates. To our knowledge, this is the first report of the natural infection of P. asiatica by PlAMV in Korea, and the divergent PlAMV isolate Gunwi expands our understanding of the epidemiology of PlAMV.

Inhibitory Components from Glycosmis stenocarpa on Pepper Mild Mottle Virus.

The goal of this study was to identify a source of natural plant compounds with inhibitory activity against pepper mild mottle virus (PMMoV). We showed, using a half-leaf assay, that murrayafoline-A (1) and isomahanine (2) isolated from the aerial parts of Glycosmis stenocarpa have inhibitory activity against PMMoV through curative, inactivation, and protection effects. Using a leaf-disk assay, we confirmed that 2 inhibited virus replication in Nicotiana benthamiana. Using electron microscopy, we found that a mixture of the virus with 2 resulted in damage to the rod-shaped virus.

Deep Sequencing Analysis of Apple Infecting Viruses in Korea.

Deep sequencing has generated 52 contigs derived from five viruses; Apple chlorotic leaf spot virus (ACLSV), Apple stem grooving virus (ASGV), Apple stem pitting virus (ASPV), Apple green crinkle associated virus (AGCaV), and Apricot latent virus (ApLV) were identified from eight apple samples showing small leaves and/or growth retardation. Nucleotide (nt) sequence identity of the assembled contigs was from 68% to 99% compared to the reference sequences of the five respective viral genomes. Sequences of ASPV and ASGV were the most abundantly represented by the 52 contigs assembled. The presence of the five viruses in the samples was confirmed by RT-PCR using specific primers based on the sequences of each assembled contig. All five viruses were detected in three of the samples, whereas all samples had mixed infections with at least two viruses. The most frequently detected virus was ASPV, followed by ASGV, ApLV, ACLSV, and AGCaV which were withal found in mixed infections in the tested samples. AGCaV was identified in assembled contigs ID 1012480 and 93549, which showed 82% and 78% nt sequence identity with ORF1 of AGCaV isolate Aurora-1. ApLV was identified in three assembled contigs, ID 65587, 1802365, and 116777, which showed 77%, 78%, and 76% nt sequence identity respectively with ORF1 of ApLV isolate LA2. Deep sequencing assay was shown to be a valuable and powerful tool for detection and identification of known and unknown virome in infected apple trees, here identifying ApLV and AGCaV in commercial orchards in Korea for the first time.

Biological and Molecular Characterization of a Korean Isolate of Cucurbit aphid-borne yellows virus Infecting Cucumis Species in Korea.

Surveys of yellowing viruses in plastic tunnels and in open field crops of melon (Cucumis melo cultivar catalupo), oriental melon (C. melo cultivar oriental melon), and cucumber (C. sativus) were carried out in two melon-growing areas in 2014, Korea. Severe yellowing symptoms on older leaves of melon and chlorotic spots on younger leaves of melon were observed in the plastic tunnels. The symptoms were widespread and included initial chlorotic lesions followed by yellowing of whole leaves and thickening of older leaves. RT-PCR analysis using total RNA extracted from diseased leaves did not show any synthesized products for four cucurbit-infecting viruses; Beet pseudo-yellows virus, Cucumber mosaic virus, Cucurbit yellows stunting disorder virus, and Melon necrotic spot virus. Virus identification using RT-PCR showed Cucurbit aphid-borne yellows Virus (CABYV) was largely distributed in melon, oriental melon and cucumber. This result was verified by aphid (Aphis gossypii) transmission of CABYV. The complete coat protein (CP) gene amplified from melon was cloned and sequenced. The CP gene nucleotide and the deduced amino acid sequence comparisons as well as phylogenetic tree analysis of CABYV CPs showed that the CABYV isolates were undivided into subgroups. Although the low incidence of CABYV in infections to cucurbit crops in this survey, CABYV may become an important treat for cucurbit crops in many different regions in Korea, suggesting that CABYV should be taken into account in disease control of cucurbit crops in Korea.

Construction of Infectious cDNA Clone of a Chrysanthemum stunt viroid Korean Isolate.

Chrysanthemum stunt viroid (CSVd), a noncoding infectious RNA molecule, causes seriously economic losses of chrysanthemum for 3 or 4 years after its first infection. Monomeric cDNA clones of CSVd isolate SK1 (CSVd-SK1) were constructed in the plasmids pGEM-T easy vector and pUC19 vector. Linear positive-sense transcripts synthesized in vitro from the full-length monomeric cDNA clones of CSVd-SK1 could infect systemically tomato seedlings and chrysanthemum plants, suggesting that the linear CSVd RNA transcribed from the cDNA clones could be replicated as efficiently as circular CSVd in host species. However, direct inoculation of plasmid cDNA clones containing full-length monomeric cDNA of CSVd-SK1 failed to infect tomato and chrysanthemum and linear negative-sense transcripts from the plasmid DNAs were not infectious in the two plant species. The cDNA sequences of progeny viroid in systemically infected tomato and chrysanthemum showed a few substitutions at a specific nucleotide position, but there were no deletions and insertions in the sequences of the CSVd progeny from tomato and chrysanthemum plants.