Occurrence and Multiplex PCR Detection of Citrus Yellow Vein Clearing Virus in Korea.

Citrus yellow vein clearing virus (CYVCV) is a member of the Alphaflexiviridae family that causes yellow vein clearing symptoms on citrus leaves. A total of 118 leaf samples from nine regions of six provinces in Korea were collected from various citrus species in 2020 and 2021. Viral diagnosis using next-generation sequencing and reverse transcription polymerase chain reaction (RT-PCR) identified four viruses: citrus tristeza virus, citrus leaf blotch virus, citrus vein enation virus, and CYVCV. A CYVCV incidence of 9.3% was observed in six host plants, including calamansi, kumquat, Persian lime, and Eureka lemon. Among the citrus infected by CYVCV, only three samples showed a single infection; the other showed a mixed infection with other viruses. Eureka lemon and Persian lime exhibited yellow vein clearing, leaf distortion, and water-soak symptom underside of the leaves, while the other hosts showed only yellowing symptoms on the leaves. The complete genome sequences were obtained from five CYVCV isolates. Comparison of the isolates reported from the different geographical regions and hosts revealed the high sequence identity (95.2% to 98.8%). Phylogenetic analysis indicated that all the five isolates from Korea were clustered into same clade but were not distinctly apart from isolates from China, Pakistan, India, and Türkiye. To develop an efficient diagnosis system for the four viruses, a simultaneous detection method was constructed using multiplex RT-PCR. Sensitivity evaluation, simplex RT-PCR, and stability testing were conducted to verify the multiplex RT-PCR system developed in this study. This information will be useful for developing effective disease management strategies for citrus growers in Korea.

First report of konjac mosaic virus in Spuriopimpinella brachycarpa in Korea.

Spuriopimpinella brachycarpa Nakai (Common name, Chamnamul; family Apiaceae) is a plant whose leaves are consumed as a vegetable and used as a folk medicine in Korea (Kim et al., 2020). In February 2020, seven samples of S. brachycarpa leaf showing virus symptoms including yellowing, vein chlorosis, chlorotic lesions, and severe mottling were collected from a greenhouse in Busan, South Korea, to diagnose the potential disease (Fig. S1a, b). The disease incidence rate in the greenhouse was >10% (2,970 m2). To identify the causal virus, we analyzed leaf dip preparation and thin sections of the symptomatic leaves by transmission electron microscopy. Filamentous virus particles and pinwheel structures were observed, indicating the presence of a potyvirus (Fig. S1c, d). To confirm these results, the symptomatic leaf samples were further analyzed by reverse-transcription polymerase chain reaction (RT-PCR) using potyvirus universal primers (Table S2) and direct sequencing of the PCR products. All samples were positive for konjac mosaic virus (KoMV). To exclude the possibility of infection by multiple viruses, we performed high-throughput sequencing (HTS) on an Illumina NovaSeq 6000 system (Macrogen Inc., Seoul, South Korea). There were two contigs (9,267 and 2,851 nt) mapping to KoMV sequences. A large contig (9,267 nt; 705,967 mapped reads; mean read coverage of 11,351.4x) showed about 80% identity (93% coverage) with KoMV-F (GenBank accession no. NC_007913) isolated from Amorphophallus konjac in Japan (Nishiguchi et al., 2006). To isolate KoMV from S. brachycarpa, we mechanically inoculated leaf extracts from symptomatic samples onto Chenopodium quinoa as an assay host via three single-lesion passages, followed by propagation in Nicotiana benthamiana. In a bioassay of the KoMV isolate (KoMV-BS), we mechanically inoculated sap from infected N. benthamiana onto 31 indicator plants including Cryptotaenia japonica (Apiaceae), which is similar to S. brachycarpa (Table S3). KoMV-BS systemically induced vein chlorosis and/or leaf mottling in four Nicotiana species and C. japonica, and chlorotic local lesions in upper leaves of C. quinoa; no symptoms were observed in 25 other indicator plants. These results were confirmed by RT-PCR. Next, we obtained the complete genome sequence of KoMV-BS using HTS and 5' and 3' rapid amplification of cDNA ends, with newly designed primers (Table S2). The assembled full-length KoMV-BS genome sequence was 9,392 nt in length, excluding the poly(A) tail, and encoded a polyprotein composed of 3,060 amino acids. The sequence was deposited in GenBank (accession no. OR001914). BLAST analysis showed 84~88% and 90~98% identities at CP nucleotide and amino acid levels, respectively with the reported KoMV isolates, confirming the virus to be an isolate of KoMV (synonym; Japanese hornwort mosaic virus, zantedeschia mosaic virus) (Adams et al., 2005; Nishiguchi et al., 2006). KoMV infection was first reported in A. konjac from Japan (Shimoyama et al. 1992) and has been spread worldwide as one of the major causal agents of viral diseases in calla lily (Liao et al., 2020). To the best of our knowledge, this is the first report of KoMV infection in S. brachycarpa. To date, cucumber mosaic virus and tobacco mosaic virus have been reported to infect S. brachycarpa in Korea (Yoon et al., 2016; 2017). Our findings will be helpful for developing virus-management strategies to prevent yield and quality loss in S. brachycarpa.

First report of Ranunculus mild mosaic virus in Ranunculus asiaticus in Korea.

Ranunculus (Ranunculus asiaticus L.) is a popular ornamental plant mainly cultivated for cut flowers and flowering potted plants. In January 2021, a leaf sample of R. asiaticus that showed virus-like symptoms including mosaic, yellowing and malformation on leaves was collected from a greenhouse in Jangheung, South Korea for disease diagnosis (Fig. S1). Disease incidence was greater than 30% in the greenhouse (~1,000 m2). Transmission electron microscopy (TEM) of symptomatic leaves identified potyvirus-like filamentous virus particles of about 800 nm. To confirm the TEM results, a symptomatic leaf sample was further analyzed by reverse-transcription polymerase chain reaction (RT-PCR) using species-specific detection primers for six potyviruses that infect R. asiaticus (Sacco et al., 2018). The sample was positive only for ranunculus mild mosaic virus (RanMMV). Additional analysis of nine symptomatic R. asiaticus plants from the infected greenhouse found that all samples were positive for RanMMV. To exclude the presence of the other viruses, next generation sequencing (NGS) was carried out. Total RNA was extracted from symptomatic leaves using the RNeasy Plant Mini Kit (Qiagen, Germany) and a transcriptome library was generated using the TruSeq Stranded Total RNA LT Sample Prep kit (Illumina, San Diego, CA) acccording to the recommended protocol. NGS was performed using an Illumina NovaSeq 6000 system (Macrogen Inc., Korea). A total of 75.58 million reads were obtained, and the reads were de novo assembled to contigs using Trinity software (Grabherr et al., 2011). BLASTn and BLASTx analysis of the contigs against the NCBI viral reference database identified the assembled large contig of 9,539 nt (5,321 mapped reads, mean read coverage of 84.2 times) as RanMMV. This sequence shared 98% nt identity (99% coverage) with the RanMMV NL isolate (acc. no. LC604020) isolated from an anemone plant (A. blanda cv. Charmer) from Netherlands. To obtain the complete genome sequence, the termini sequences were determined by 5' and 3' rapid amplification of cDNA ends (RACE) methods as reported recently (Imamura et al., 2021). The assembled full-length genome sequence of RanMMV-JH is 9,574 nt in length, excluding the poly(A) tail, and encoding a polyprotein of 3,074aa. The sequence was deposited in GenBank under the accession no. OL742438. RanMMV is transmitted by aphids in a nonpersistent manner and has very narrow host range. RanMMV, one of causative agents of ranunculus mosaic disease, has been problematic in ranunculus production area of Japan (Hayahi et al., 2018; Kamikawa et al., 2022). Recently, some perennial weeds from the Ranunculaceae family (e.g. R. japonicus, R. silerifolius and R. tachiroei) are known to may act as a virus reservoir (Kamikawa et al., 2022). As R. asiaticus is cultivated by vegetative propagation, there is need to develop certification system for producing virus-free R. asiaticus. To our knowledge, this is the first report of RanMMV infection in R. asiaticus in Korea.

Adaptation and Codon-Usage Preference of Apple and Pear-Infecting Apple Stem Grooving Viruses.

Apple stem grooving virus (ASGV; genus Capillovirus) is an economically important virus. It has an approx. 6.5 kb, monopartite, linear, positive-sense, single-stranded RNA genome. The present study includes identification of 24 isolates-13 isolates from apple (Pyrus malus L.) and 11 isolates from pear (Pyrus communis L.)-from different agricultural fields in South Korea. The coat protein (CP) gene of the corresponding 23 isolates were amplified, sequenced, and analyzed. The CP sequences showed phylogenetic separation based on their host species, and not on the geography, indicating host adaptation. Further analysis showed that the ASGV isolated in this study followed host adaptation influenced and preferred by the host codon-usage.

First report of Colombian datura virus in Brugmansia suaveolens in Korea.

Brugmansia suaveolens, known as angel's trumpet, is a perennial ornamental shrub in the Solanaceae with large fragrant flowers. In June 2018, a leaf sample of B. suaveolens that showed virus-like symptoms including chlorotic spots, yellowing and mottle on leaves was collected from a greenhouse in Seongnam, South Korea for disease diagnosis (Supplementary Figure S1a, b). Disease incidence in the greenhouse was greater than 80% for about 2,000 B. suaveolens plants. To identify a causal virus, transmission electron microscopy (TEM) was used to analyze symptomatic leaf samples using leaf dips and thin section methods. Filamentous virus particles and pinwheel structures were observed, indicating the presence of a potyvirus (Supplementary Figure S1c, d). To confirm the TEM results, a symptomatic leaf sample was further analyzed by reverse-transcription polymerase chain reaction (RT-PCR) using species-specific detection primers for three potyviruses that infect Brugmansia spp.: Colombian datura virus (CDV), Brugmansia mosaic virus (BruMV), and Brugmansia suaveolens mottle virus (BsMoV) (Lucinda et al, 2008; Park et al., 2014; Verma et al., 2014). The sample was positive only for CDV. CDV is transmitted by aphids in a nonpersistent manner and mechanical inoculation and can infect plants in the Solanaceae family including tomato and tobacco (Kahn and Bartels 1968; Schubert et al. 2006; Verhoeven et al. 1996) and has been designated a quarantine virus in Korea. Additional analysis of 13 symptomatic B. suaveolens plants from the infected greenhouse found that all samples except one were infected with CDV. To isolate CDV from B. suaveolens, leaf extracts from symptomatic samples were mechanically inoculated on an assay host, Nicotiana tabacum cv. BY via three single-lesion passages followed by propagation in N. benthamiana. For the bioassay of the CDV isolate (CDV-AT-Kr), sap from infected N. benthamiana was mechanically inoculated on 31 indicator plants, including B. suaveolens (Supplementary Table S2). CDV-AT-Kr induced chlorotic local lesions, necrotic local lesions, mottle, and/or mosaic systemically in 10 Nicotiana spp., and mottle and yellowing in tomato. On inoculated B. suaveolens, te mild mottle symptom was reproduced. No symptoms were observed in pepper or Datura stramonium. These results were confirmed by RT-PCR. To characterize CDV-AT-Kr genetically, the complete genome sequence of CDV-AT-Kr was obtained by RT-PCR using specific primers (Supplementary Table S3) and deposited in GenBank (accession no. MW075268). The CDV-AT-Kr RNA consists of 9,620 nt, encoding a polyprotein of 3,076 aa. BLASTn analysis showed that CDV-AT had maximum nucleotide identities of 98.9% at the complete genome level with a CDV isolate (accession no. JQ801448) from N. tabacum in the UK. To our knowledge, this is the first report of CDV infection in B. suaveolens in Korea and the second report in the world of the complete genome sequence. As B. suaveolens is cultivated by vegetative propagation, production and maintenance of virus-free, healthy B. suaveolens is needed. In addition, as new CDV hosts have been repeatedly reported (Pacifico et al., 2016; Salamon et al., 2015; Tomitaka et al., 2014; Verma et al., 2014), we are monitoring nationwide occurrence to prevent the spread of the virus to other crops.

First report of cucurbit chlorotic yellows virus infecting cucumber in South Korea.

In October 2018, cucumber plants showing yellowing and chlorotic mottle symptoms were observed in a greenhouse in Chungbuk, South Korea. The observed symptoms were similar to those caused by cucurbit aphid-borne yellows virus (CABYV), which has been detected on cucumber plants in the region since it was reported on melon in Korea in 2015 (Lee et al 2015). To identify the potential agents causing these symptoms, 28 samples from symptomatic leaves and fruit of cucumber plants were subjected to total RNA extraction using the Plant RNA Prep Kit (Biocubesystem, Korea). Reverse transcription polymerase chain (RT-PCR) was performed on total RNA using CABYV specific primers and protocols (Kwak et al. 2018). CABYV was detected in 17 of the 28 samples, while 11 symptomatic samples tested negative. In order to identify the cause of the symptoms, RT-PCR was performed using cucurbit chlorotic yellows virus (CCYV) and cucurbit yellow stunting disorder virus (CYSDV) specific primers (Wintermantel et al. 2019). Eight of the 28 samples were positive using the CCYV specific primers while seven samples were infected with only CCYV and one contained a mixed infection of CABYV with CCYV. None of the samples tested positive for CYSDV. The expected 373 nt amplicons of CCYV were bi-directionally sequenced, and BLASTn analysis showed that the nucleotide sequences shared 98 to 100% identity with CCYV isolates from East Asia, including NC0180174 from Japan. Two pairs of primers for amplification of the complete coat protein and RNA-dependent RNA polymerase (RdRp) genes (Wintermantel et al., 2019) were used to amplify the 753bp coat protein and 1517bp RdRp genes, respectively. Amplicons of the expected sizes were obtained from a CCYV single infection and ligated into the pGEM T- Easy vector (Promega, WI, USA). Three clones from each amplicon were sequenced and aligned using Geneious Prime and found to have identical sequences (Genbank accession nos. MW033300, MW033301). The CP and RdRp sequences demonstrated 99% nucleotide and 100% amino acid identity with the respective genes and proteins of the CCYV isolates from Japan. This study documents the first report of CCYV in Korea. Since CCYV was first detected on melon in Japan, it has been reported in many other countries including those in East Asia, the Middle East, Southern Europe, North Africa, and recently in North America. CCYV has the potential to become a serious threat to production of cucurbit crops in Korea, particularly due to the increasing prevalence of the whitefly, Bemisia tabaci, in greenhouse production systems. It will be important to continue monitoring for CCYV and determine potential alternate hosts in the region to manage and prevent further spread of CCYV in Korea.

Efficacy and safety of mepolizumab in Korean patients with severe eosinophilic asthma from the DREAM and MENSA studies.

BACKGROUND/AIMS: The efficacy and safety of mepolizumab in patients with severe eosinophilic asthma has been evaluated in a global clinical trial programme. This post hoc analysis assesses the efficacy and safety of mepolizumab in Korean patients. METHODS: Data from Korean patients in the Phase III, placebo-controlled, randomised DREAM (MEA112997/NCT01000506) and MENSA (MEA115588/ NCT01691521) studies were included. Patients ≥ 12 years old with severe eosinophilic asthma received mepolizumab (DREAM: 75, 250 or 750 mg intravenously [IV]; MENSA: 75 mg IV or 100 mg subcutaneously [SC]), or placebo every 4 weeks for 52 weeks (DREAM) or 32 weeks (MENSA). The primary outcome was the rate of clinically significant asthma exacerbations. Secondary outcomes included forced expiratory volume in 1 second (FEV1), Asthma Control Questionnaire (ACQ) and St George's Respiratory Questionnaire (SGRQ) scores (MENSA only). Blood eosinophil counts (BEC) and safety were assessed throughout. RESULTS: Reductions in the rate of clinically significant asthma exacerbations were observed with the approved (100 mg SC) and bioequivalent (75 mg IV) doses of mepolizumab in Korean patients who participated in DREAM and MENSA. In MENSA, trends for improvements from baseline at week 32 in pre-bronchodilator FEV1 (75 mg IV group), ACQ-5 and SGRQ scores (in both treatment groups) were seen versus placebo in Korean patients. Incidence of on-treatment adverse events was similar in Korean patients versus non-Korean patients as were observed reductions from baseline in BEC. CONCLUSION: Mepolizumab treatment provided clinical benefits for Korean patients with severe eosinophilic asthma; the safety profile is consistent with the overall population.

First report of Tomato spotted wilt virus in Petasites japonicus in Korea.

Butterbur (Petasites japonicus [Siebold & Zucc.] Maxim.) is a perennial herb of the Asteraceae family that is cultivated for medicinal and nutritional purposes. Due to long-term vegetative propagation of virus-infected native species, the yield and quality of butterbur plants have deteriorated. Five viruses have been reported to infect this species: alfalfa mosaic virus (AMV), arabis mosaic virus (ArMV), butterbur mosaic virus (ButMV), broad bean wilt virus 2 (BBWV-2), and cucumber mosaic virus (CMV) (Ham et al. 2016; Tochihara and Tamura 1976). From 2018 to 2019, butterbur plants in four greenhouses in Nonsan, South Korea (Supplementary Figure S1a, b) were found to show virus-like symptoms such as chlorotic and necrotic ring spots, necrosis, and mild mosaic on the leaves. Disease incidence was greater than 80% in one greenhouse (~1,000 m2). To identify the causal virus, we collected 17 symptomatic butterbur leaf samples from these greenhouses and performed reverse-transcription polymerase chain reaction (RT-PCR) analysis using species-specific detection primers for the five reported viruses and tomato spotted wilt virus (TSWV) (Supplementary Table S2). RT-PCR results showed that 12 samples from three greenhouses showing necrotic ring spots and mosaic symptoms were infected with a mixture of TSWV and ButMV, whereas 5 samples from one greenhouse showing mild mosaic symptoms were infected only with ButMV. TSWV (genus Orthotospovirus, family Tospoviridae) is transmitted by thrips and causes serious damage to a wide range of economically important plants (Pappu et al. 2009). ButMV (genus Carlavirus, family Betaflexiviridae) is transmitted by aphids, as well as infected vegetative propagation material (Hashimoto et al. 2009) and is the most predominant virus in butterbur in Korea (Ham et al. 2016). To isolate TSWV from butterbur, leaf extracts from symptomatic samples were mechanically inoculated on an assay host, Chenopodium quinoa, via three single-lesion passages followed by propagation in Nicotiana tabacum cv. Samsun. Thirty different indicator plant species were used for the bioassay of the TSWV isolate (TSWV-NS-BB20) by mechanical inoculation method (Supplementary Table S3). RT-PCR analysis confirmed that TSWV-NS-BB20 induced necrotic local lesions and mosaic on Nicotiana species and ring spots and mosaic on tomatoes and peppers. Notably, TSWV-NS-BB20 reproduced necrotic local lesions and mild mosaic symptoms on butterbur plants which were infected with ButMV with no obvious symptoms. To characterize TSWV-NS-BB20 genetically, the complete genome sequences of L (8914 nt), M (4751 nt), and S (2917 nt) RNA segments were obtained by RT-PCR using specific primers for TSWV as described previously (Kwak et al., 2020). The obtained sequences were deposited in GenBank under accession nos. MT643236, MT842841, and MN854654, respectively. BLASTn analysis showed that sequences of each segment had maximum nucleotide identities of 99.0, 98.9, and 98.6% to TSWV-L, M, and S (KP008128, FM163373, and KP008129) of TSWV-LL-N.05 isolate from tomato in Spain. Since 2018, TSWV outbreaks on butterbur are observed every year and thus may act as a potential source of TSWV infection for other crops of importance to Korea, such as pepper. Owing to the butterbur vegetative propagation, the identification of TSWV infection in butterbur will be helpful for future virus management to generate virus-free materials. To our knowledge, this is the first report of TSWV infection of butterbur.

First report of Mochi tree (Ilex integra) Anthracnose caused by Colletotrichum fioriniae in Korea.

Ilex integra, also called Mochi tree, is an woody ornamental common in Asia, particularly in Korea, China, Japan, and Taiwan. Anthracnose, caused by Colletotrichum spp., is an economically important disease worldwide, affecting both fruit and seed quality. In April 2019, symptoms of Anthracnose were observed on leaves from several Mochi trees in an urban planting in Wando-gun, South Korea. Irregularly shaped, light-to-dark brown spots of 1-4mm were observed on young leaves. The lesions coalesced as each spot enlarged, flat and black fruiting bodies (acervuli) occurred on the brown lesions. Four symptomatic leaves were collected; fractions were cut from symptomatic tissue, including healthy tissue, then were disinfected with 1% sodium hypochlorite and 70% ethanol, and placed on potato dextrose agar (PDA). After dark-incubation at 25℃ for 7 days two isolates were obtained, the fungal colonies appeared as white to light gray mycelium, then becoming dark and orange to pink on the underside. After acervuli were produced on the plate, orange-red conidial masses erupted. Conidia observed from two isolates were hyaline, 1-celled, and oblong with round to acute apices, and measured 7 to 12 × 2 to 5 µm (mean ± SD: 9.29 ±2.26 × 3.68± 1.31 µm) (n=30). Genomic DNA was extracted and multi-locus sequencing was performed with one representative isolate using the internal transcribed spacer (ITS) (White et al. 1990), actin (ACT) genes, chitin synthase 1 gene (CHS-1) (Carbone and Kohn 1999), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), Calmodulin (CAL) (Weir et al. 2012) and submitted. Blast search results showed that the isolate had 100%, 98.45%, 99.74%, 100%, and 100% nucleotide sequence identity with those of C. fioriniae (MT607651, MH717601, MG666441, MN895544, MN974144) respectively (Jamin and Mateu 2008). The five sequences were deposited in NCBI GenBank (Accession No: MT457472, MT465884, MT465885, MT465886, MT465887), which were assigned to ITS, ACT, CHS-1, GAPDH, and CAL regions, respectively. Based on the morphology (Shivas and Tan 2009) and molecular characterization (Guerber et al. 2003), the isolate was identified as C. fioriniae. To confirm pathogenicity, a conidial suspension (106 conidia/ml) of the sequenced isolate was used to inoculated, young and mature leaves of a 4-year-old Mochi tree. Ten leaves of the seedling were disinfected with 70% ethanol, then were wounded with a toothpick. The conidial suspension (20 µl) was placed on the wound. The inoculated plant and control plants were tested with sterilized water and incubated at 25℃ in a moist chamber. The pathogenicity test was repeated three times. Typical spots were observed on the young leaves 2 days after inoculation, whereas they were observed on the mature leaves 7 days after inoculation. Acervuli developed on both young and mature leaves 5 and 20 days after treatment, respectively. The control plants did not show symptoms, and the fungus was re-isolated from the inoculated plant; thus, fulfilling Koch's Postulates. In Korea, C. fioriniae has been recorded as a pathogen of fruit (apple, eggplant and peach), but this is the first report of the fungus causing anthracnose on Mochi tree. The pathogen has been reported on leaves of a different Ilex species in the eastern USA (Farr and Rossman 2020). Although this new disease of I. integra is limited occurrence, C. fioriniae may be able to infect other plant species in South Korea.

Newly emerged resistance-breaking variants of cucumber mosaic virus represent ongoing host-interactive evolution of an RNA virus.

Understanding the evolutionary history of a virus and the mechanisms influencing the direction of its evolution is essential for the development of more durable strategies to control the virus in crop fields. While the deployment of host resistance in crops is the most efficient means to control various viruses, host resistance itself can act as strong selective pressure and thus play a critical role in the evolution of virus virulence. Cucumber mosaic virus (CMV), a plant RNA virus with high evolutionary capacity, has caused endemic disease in various crops worldwide, including pepper (Capsicum annuum L.), because of frequent emergence of resistance-breaking variants. In this study, we examined the molecular and evolutionary characteristics of recently emerged, resistance-breaking CMV variants infecting pepper. Our population genetics analysis revealed that the high divergence capacity of CMV RNA1 might have played an essential role in the host-interactive evolution of CMV and in shaping the CMV population structure in pepper. We also demonstrated that nonsynonymous mutations in RNA1 encoding the 1a protein enabled CMV to overcome the deployed resistance in pepper. Our findings suggest that resistance-driven selective pressures on RNA1 might have contributed in shaping the unique evolutionary pattern of CMV in pepper. Therefore, deployment of a single resistance gene may reduce resistance durability against CMV and more integrated approaches are warranted for successful control of CMV in pepper.

Potential use of newly isolated bacteriophage as a biocontrol against Acidovorax citrulli.

Acidovorax citrulli, the gram-negative bacteria that causes bacterial fruit blotch (BFB), has been responsible for huge worldwide economic losses in watermelon and melon production since 1980. No commercial cultivar resistant to BFB has been reported. Of the two reported genotypes of A. citrulli, genotype I is the main causal agent of BFB in melon and genotype II causes disease in watermelon. After the isolation of the first bacteriophage against A. citrulli (ACP17), efforts have been made to isolate bacteriophages with wider host ranges by collecting samples from watermelon, pumpkin, and cucumber. The newly isolated phage ACPWH, belonging to the Siphoviridae family, has a head size of 60 ± 5 nm and tail size of 180 ± 5 nm, and can infect 39 out of 42 A. citrulli strains. ACPWH has genome size of 42,499 and GC content of 64.44%. Coating watermelon seeds with bacteriophage ACPWH before soil inoculation with A. citrulli resulted in 96% germination and survival, compared to 13% germination of uncoated control seeds. These results suggest that phage ACPWH may be an effective and low-cost biocontrol agent against BFB.

A Plant Virus-Based Vector System for Gene Function Studies in Pepper.

While pepper (Capsicum annuum) is a highly recalcitrant species for genetic transformation studies, plant virus-based vectors can provide alternative and powerful tools for transient regulation and functional analysis of genes of interest in pepper. In this study, we established an effective virus-based vector system applicable for transient gain- and loss-of-function studies in pepper using Broad bean wilt virus2 (BBWV2). We engineered BBWV2 as a dual gene expression vector for simultaneous expression of two recombinant proteins in pepper cells. In addition, we established enhanced and stable expression of recombinant proteins from the BBWV2-based dual vector via coexpression of a heterologous viral suppressor of RNA silencing. We also developed a BBWV2-based virus-induced gene silencing (VIGS) vector, and we successfully silenced the phytoene desaturase gene (PDS) using the BBWV2-based VIGS vector in various pepper cultivars. Additionally, we optimized the BBWV2-based VIGS system in pepper by testing the efficiency of PDS gene silencing under different conditions. This BBWV2-based vector system represents a convenient approach for rapid and simple analysis of gene functions in pepper.

Complete Genome Sequences and Evolutionary Analysis of Cucurbit aphid-borne yellows virus Isolates from Melon in Korea.

Complete genome sequences of 22 isolates of Cucurbit aphid-borne yellows virus (CABYV), collected from melon plants showing yellowing symptom in Korea during the years 2013-2014, were determined and compared with previously reported CABYV genome sequences. The complete genomes were found to be 5,680-5,684 nucleotides in length and to encode six open reading frames (ORFs) that are separated into two regions by a non-coding internal region (IR) of 199 nucleotides. Their genomic organization is typical of the genus Polerovirus. Based on phylogenetic analyses of complete nucleotide (nt) sequences, CABYV isolates were divided into four groups: Asian, Mediterranean, Taiwanese, and R groups. The Korean CABYV isolates clustered with the Asian group with > 94% nt sequence identity. In contrast, the Korean CABYV isolates shared 87-89% sequence identities with the Mediterranean group, 88% with the Taiwanese group, 81-84% with the CABYV-R group, and 72% with another polerovirus, M.. Recombination analyses identified 24 recombination events (12 different recombination types) in the analyzed CABYV population. In the Korean CABYV isolates, four recombination types were detected from eight isolates. Two recombination types were detected in the IR and P3-P5 regions, respectively, which have been reported as hotspots for recombination of CABYV. This result suggests that recombination is an important evolutionary force in the genetic diversification of CABYV populations.

Complete Genome Sequence Analysis of Two Divergent Groups of Sweet potato chlorotic fleck virus Isolates Collected from Korea.

The Sweet potato chlorotic fleck virus (SPCFV), of the genus Carlavirus (family Betaflexiviridae), was first detected as one of several viruses infecting sweet potatoes (Ipomea batatas L.) in Korea. Out of 154 sweet potato samples collected in 2012 that were showing virus-like symptoms, 47 (31%) were infected with SPCFV, along with other viruses. The complete genome sequences of four SPCFV isolates were determined and analyzed using previously reported genome sequences. The complete genomes were found to contain 9,104-9,108 nucleotides, excluding the poly-A tail, containing six putative open reading frames (ORFs). Further, the SPCFV Korean isolates were divided into two groups (Group I and Group II) by phylogenetic analysis based on the complete nucleotide sequences; Group I and Group II had low nucleotide sequence identities of about 73%. For the first time, we determined the complete genome sequence for the Group II SPCFV isolates. The amino acid sequence identity in coat proteins (CP) between the two groups was over 90%, whereas the amino acid sequence identity in other proteins was less than 80%. In addition, SPCFV Korean isolates had a low amino acid sequence identity (61% CPs and 47% in the nucleotide- binding protein [NaBp] region) to that of Melon yellowing-associated virus (MYaV), a typical Carlavirus.

Phylogeographic analysis of the full genome of Sweepovirus to trace virus dispersal and introduction to Korea.

Sweet potato is a vegetatively propagated crop that is produced for both growth in Korean fields and for export out of the country. The viruses that are present in introduced sweet potatoes can spread both domestically and to foreign countries. Determining the time and path of virus movement could help curtail its spread and prevent future dispersal of related viruses. Determining the consequences of past virus and sweet potato dispersal could provide insight into the ecological and economic risks associated with other sweet potato-infecting viral invasions. We therefore applied Bayesian phylogeographic inferences and recombination analyses of the available Sweepovirus sequences (including 25 Korean Sweepovirus genomes) and reconstructed a plausible history of Sweepovirus diversification and movement across the globe. The Mediterranean basin and Central America were found to be the launchpad of global Sweepovirus dispersal. Currently, China and Brazil are acting as convergence regions for Sweepoviruses. Recently reported Korean Sweepovirus isolates were introduced from China in a recent phase and the regions around China and Brazil continue to act as centers of Sweepovirus diversity and sites of ongoing Sweepovirus evolution. The evidence indicates that the region is an epidemiological hotspot, which suggests that novel Sweepovirus variants might be found.

A Randomized, Multicenter, Double-blind, Phase III Study to Evaluate the Efficacy on Allergic Rhinitis and Safety of a Combination Therapy of Montelukast and Levocetirizine in Patients With Asthma and Allergic Rhinitis.

PURPOSE: The aim of this study was to evaluate the efficacy and safety of a fixed-dose combination of montelukast and levocetirizine in patients with perennial allergic rhinitis with mild to moderate asthma compared with the efficacy and safety of montelukast alone. METHODS: This study was a 4-week, randomized, multicenter, double-blind, Phase III trial. After a 1-week placebo run-in period, the subjects were randomized to receive montelukast (10 mg/day, n = 112) or montelukast (10 mg/day)/levocetirizine (5 mg/day) (n = 116) treatment for 4 weeks. The primary efficacy end point was mean daytime nasal symptom score. Other efficacy end points included mean nighttime nasal symptom score, mean composite symptom score, overall assessment of allergic rhinitis by both subjects and physicians, forced expiratory volume in 1 second (FEV1), forced vital capacity (FVC), FEV1/FVC, asthma control test score, and the frequency of rescue medication used during the treatment period. FINDINGS: Of 333 patients screened for this study, 228 eligible patients were randomized to treatment. The mean (SD) age of patients was 43.32 (15.02) years, and two thirds of subjects were female (66.67%). The demographic characteristics were similar between the treatment groups. Compared with the montelukast group, the montelukast/levocetirizine group reported significant reductions in mean daytime nasal symptom score (least squares mean [SE] of combination vs montelukast, -0.98 [0.06] vs -0.81 [0.06]; P = 0.045). For all other allergic rhinitis efficacy end points, the montelukast/levocetirizine group showed greater improvement than the montelukast group. Similar results were observed in overall assessment scores and in FEV1, FVC, FEV1/FVC, and asthma control test score changes from baseline for the 2 treatment groups. Montelukast/levocetirizine was well tolerated, and the safety profile was similar to that observed in the montelukast group. IMPLICATIONS: The fixed-dose combination of montelukast and levocetirizine was effective and safe in treating perennial allergic rhinitis in patients with asthma compared with montelukast alone. ClinicalTrials.gov identifier: NCT02552667.

Phylogenetic Characterization of Tomato chlorosis virus Population in Korea: Evidence of Reassortment between Isolates from Different Origins.

Tomato chlorosis virus (ToCV) is a whitefly-transmitted and phloem-limited crinivirus. In 2013, severe interveinal chlorosis and bronzing on tomato leaves, known symptoms of ToCV infection, were observed in greenhouses in Korea. To identify ToCV infection in symptomatic tomato plants, RT-PCR with ToCV-specific primers was performed on leaf samples collected from 11 tomato cultivating areas where ToCV-like symptoms were observed in 2013 and 2014. About half of samples (45.18%) were confirmed as ToCV-infected, and the complete genome of 10 different isolates were characterized. This is the first report of ToCV occurring in Korea. The phylogenetic relationship and genetic variation among ToCV isolates from Korea and other countries were also analysed. When RNA1 and RNA2 are analysed separately, ToCV isolates were clustered into three groups in phylogenetic trees, and ToCV Korean isolates were confirmed to belong to two groups, which were geographically separated. These results suggested that Korean ToCV isolates originated from two independent origins. However, the RNA1 and RNA2 sequences of the Yeonggwang isolate were confirmed to belong to different groups, which indicated that ToCV RNA1 and RNA2 originated from two different origins and were reassorted in Yeonggwang, which is the intermediate point of two geographically separated groups.

Efficacy and safety of acupuncture for functional constipation: a randomised, sham-controlled pilot trial.

BACKGROUND: The prevalence of functional constipation (FC) is 3-27%, and FC has been reported to cause discomfort in daily life and various complications. The treatment for FC depends on laxatives, and thus, effective and non-toxic alternative treatments are needed. METHODS: We conducted a randomised, sham-controlled parallel-design, pilot trial. Participants with FC were randomly assigned to either the real acupuncture (RA) or sham acupuncture (SA) group. The RA consisted of eight fixed acupuncture points (bilateral ST25, ST27, BL52 and BL25) and four additional points targeted to the individual based on Traditional Korean medicine (TKM). SA consisted of shallow acupuncture insertion at 12 non-acupuncture points. Twelve sessions were provided over 4 weeks. The outcome measures were weekly defecation frequency (DF), spontaneous complete bowel movement (SCBM), Bristol stool scale (BSS) score and constipation assessment scale (CAS) score. The participants were followed for 4 weeks after the treatment. RESULTS: Thirty participants were enrolled (15:15). The mean DF were 5.86 ± 5.62, 5.43 ± 3.39 and 5.79 ± 3.64 in the RA group and 3.73 ± 1.62, 5.00 ± 1.77 and 5.40 ± 1.96 in the SA group at weeks 1, 5, and 9, respectively. The increases in weekly SCBMs were 2.50 ± 3.86 and 2.71 ± 4.01 with RA and 2.33 ± 2.74 and 1.93 ± 2.25 with SA at weeks 5 and 9, respectively (mean difference [MD] 0.78). The BSS scores were 0.57 ± 1.72 and 1.09 ± 1.30 with RA and 0.15 ± 1.06 and 0.14 ± 0.88 with SA at weeks 5 and 9, respectively (MD 0.95). The CAS score changes were - 3.21 ± 2.91 and - 3.50 ± 3.98 with RA and - 2.67 + ±2.82 and - 2.87 ± 2.95 with SA at weeks 5 and 9, respectively. Greater improvements were observed in subgroup analysis of participants with hard stool. The numbers of participants who developed adverse events (AEs) were equal in both groups (four in each group), and the AEs were not directly related to the intervention. CONCLUSIONS: This clinical trial shows feasibility with minor modifications to the primary outcome measure and comparator. Acupuncture showed clinically meaningful improvements in terms of SCBMs occurring more than 3 times per week and in these improvements being maintained for 4 weeks after treatment completion. As this is a pilot trial, future studies are warranted to confirm the efficacy and safety. TRIAL REGISTRATION: KCT0000926 (Registered on 14 November 2013).

First Isolation and Molecular Characterization of Bacteriophages Infecting Acidovorax citrulli, the Causal Agent of Bacterial Fruit Blotch.

Bacteriophages of Acidovorax citrulli, the causal agent of bacterial fruit blotch, were isolated from 39 watermelon, pumpkin, and cucumber leaf samples collected from various regions of Korea and tested against 18 A. citrulli strains. Among the six phages isolated, ACP17 forms the largest plaque, and exhibits the morphology of phages in the Myoviridae family with a head diameter of 100 ± 5 nm and tail length of 150 ± 5 nm. ACP17 has eclipse and latent periods of 25 ± 5 min and 50 ± 5 min, respectively, and a burst size of 120. The genome of ACP17 is 156,281 base pairs with a G + C content of 58.7%, 263 open reading frames, and 4 transfer RNA genes. Blast search and phylogenetic analysis of the major capsid protein showed that ACP17 has limited homology to two Stentrophomonas phages, suggesting that ACP17 is a new type of Myoviridae isolated from A. citrulli.

Molecular dissection of distinct symptoms induced by tomato chlorosis virus and tomato yellow leaf curl virus based on comparative transcriptome analysis.

The viral infection of plants may cause various physiological symptoms associated with the reprogramming of plant gene expression. However, the molecular mechanisms and associated genes underlying disease symptom development in plants infected with viruses are largely unknown. In this study, we employed RNA sequencing for in-depth molecular characterization of the transcriptional changes associated with the development of distinct symptoms induced by tomato chlorosis virus (ToCV) and tomato yellow leaf curl virus (TYLCV) in tomato. Comparative analysis of differentially expressed genes revealed that ToCV and TYLCV induced distinct transcriptional changes in tomato and resulted in the identification of important genes responsible for the development of symptoms of ToCV (i.e., chlorosis and anthocyanin accumulation) and TYLCV (i.e., yellowing, stunted growth, and leaf curl). Our comprehensive transcriptome analysis can provide molecular strategies to reduce the severity of disease symptoms as well as new insights for the development of virus-resistant crops.