Complete genome sequence of a new putative member of the genus Pelarspovirus that infects Quercus aliena Blume in South Korea.

The complete nucleotide sequence of a newly discovered virus infecting Quercus aliena Blume, tentatively named "quercus leafroll virus" (QLRV), was determined through high-throughput and Sanger sequencing. The sequence comprises 3,940 nucleotides, has five open reading frames, and has a typical pelarspovirus genome organization, with neither 3' polyadenylation nor a 5' cap. The proteins encoded by QLRV share 17.9 to 44.2% amino acid sequence identity with known pelarspovirus proteins. The highest amino acid sequence identity values for the RNA-dependent RNA polymerase (RdRp) and coat protein were 67.5% and 55.2%, respectively, which are below the current thresholds for pelarspovirus species demarcation. On the basis of these results, we propose classifying QLRV as a new member of the genus Pelarspovirus, family Tombusviridae.

First report of Kalanchoe Latent Virus naturally infecting common bean (Phaseolus vulgaris L.) in South Korea.

The common bean (Phaseolus vulgaris; family: Fabaceae) is an economically and nutritionally important food crop worldwide (Ganesan et al. 2017). In 2021, several plants collected from different provinces in South Korea had symptoms of viral infections (e.g., mild yellow-greenish speckling, stunting, crinkling, and deformed leaves). To identify the causal pathogens, total RNA was isolated from pooled leaf tissues from all samples (n = 29) for paired-end high-throughput sequencing (HTS). The cDNA library was constructed after eliminating ribosomal RNA using the TruSeq RNA Sample Prep Kit and then sequenced using the Illumina NovaSeq 6000 platform (Macrogen, Korea). The 297,868,156 paired-end clean reads (150 nt) were de novo assembled using Trinity with default parameters. BLASTx was used for the contig analysis, which revealed the pooled samples were infected with several plant viruses (e.g., turnip mosaic virus, zucchini yellow mosaic virus, cucumber mosaic virus, lily mottle virus). Notably, the assembled contigs included a single viral contig (8,472 nt) comprising the nearly complete KLV genome (HTS mean coverage: 39.46%). Kalanchoe latent virus (KLV; genus: Carlavirus; family: Betaflexiviridae) has been detected in Kalanchoë blossfeldiana (Hearon 1982), Chenopodium quinoa (Dinesen et al. 2009), and Graptopetalum paraguayense (Sorrentino et al. 2017). The sequence was most similar (96.28% nucleotide identity; 99% query coverage) to KLV isolate DSMZ PV-0290 (GenBank: OP525283) from Denmark. The contig sequence was validated via reverse transcription-polymerase chain reaction (RT-PCR) using total RNA extracted from the 29 individually stored samples and nine primer sets specific for the KLV contig. All nine contig-specific overlapping fragments were amplified from only a P. vulgaris plant with mild yellowing mosaic symptoms collected on July 6, 2021, in Jeongseon County, South Korea. Additionally, 5' and 3' rapid amplification of cDNA ends (RACE)-specific primers were designed for the KLV contig sequence to determine the terminal ends of the genome of the South Korean KLV isolate using the 5'/3' RACE System (Invitrogen, Carlsbad, CA, USA). All of the amplified and overlapping fragments were cloned into the RBC T&A Cloning Vector (RBC Bioscience, Taipei, Taiwan) and sequenced using the Sanger method. The obtained full-length genomic sequence of the KLV isolate (KLV-SK22) was 8,517 nt long and was deposited in GenBank OQ718816. According to the BLASTn analysis, KLV-SK22 was highly similar (96.30% sequence identity; 100% query coverage) to the DSMZ PV-0290 isolate. Phylogenetic trees constructed on the basis of coat protein and RNA-dependent RNA polymerase amino acid sequences revealed that KLV-SK22 is closely related to the DSMZ PV-0290 and PV-0290B isolates from Denmark, respectively. At the genome and gene levels, the individual sequence identities between the carlaviruses and other KLV isolates were 96.29% to 100% (Adams et al. 2004). Additionally, an RT-PCR analysis using detection primers specific for KLV-SK22 did not detect KLV in 15 samples (P. vulgaris = 3, Glycine max = 8, Pueraria montana = 2, Trifolium repens = 1, and Vigna angularis = 1) randomly collected from different regions in South Korea. Based on these results, KLV infection may not be widespread at this time in South Korea. To the best of our knowledge, this is the first report of KLV in P. vulgaris in South Korea or elsewhere. Our findings will aid future research on the epidemiology and long-term management of KLV-related diseases.

Complete genome sequence of cnidium virus 2, a novel cytorhabdovirus isolated from Cnidium officinale in South Korea.

High-throughput sequencing identified a cytorhabdovirus, tentatively named "cnidium virus 2" (CnV2), in Cnidium officinale, and Sanger sequencing confirmed the genome sequence. CnV2 is 13,527 nucleotides in length and contains seven open reading frames in the order 3'-N-P-3-4-M-G-L-5', separated by intergenic regions. The full-length nucleotide sequence of CnV2 shares 19.4-53.8% identity with other known cytorhabdovirus genome sequences. The N, P, P3, M, G, and L proteins share 15.8-66.7%, 11-64.3%, 11.1-80.5%, 10.8-75.3%, 12.3-72.1%, and 20-72.7% amino acid sequence identity, respectively, with the cognate deduced protein sequences from known cytorhabdoviruses. CnV2 is related to other members of the genus Cytorhabdovirus, with sambucus virus 1 being the closest relative. Thus, CnV2 should be classified as a new member in the genus Cytorhabdovirus of the family Rhabdoviridae.

Complete genome sequence of daphne virus 1, a novel cytorhabdovirus infecting Daphne odora.

A novel cytorhabdovirus was identified in Daphne odora in South Korea using high-throughput sequencing. The virus, tentatively named "daphne virus 1" (DV1), has a full-length genome sequence of 13,206 nucleotides with a genome organization comparable to that of unsegmented plant rhabdoviruses and contains seven antisense putative genes in the order 3'-leader-N-P'-P-P3-M-G-L-5'-trailer. The coding region of the genome is flanked by a 3' leader and a 5' trailer sequence, 261 and 151 nucleotides long, respectively. The DV1 genome shares 33.74%-57.44% nucleotide sequence identity with other cytorhabdoviruses. The DV1-encoded proteins share the highest amino acid sequence identity with homologues from Asclepias syriaca virus 1. Phylogenetic analysis showed that DV1 clustered with representative cytorhabdoviruses. We propose classifying DV1 in a new species within the genus Cytorhabdovirus, family Rhabdoviridae.

Complete genome sequence of a novel member of the genus Polerovirus from Cnidium officinale in South Korea.

The complete genome sequence of a novel virus found infecting Cnidium officinale, which we have named "cnidium polerovirus 1" (CnPV1), is 6,090 nucleotides in length, similar to those of other poleroviruses. Seven open reading frames (ORF0-5 and ORF3a) were predicted in this genome. CnPV1 shares 32.4%-38.9% full-length nucleotide sequence identity with other known polerovirus genome sequences. The putative P0, P1-2, P3-5, P3, and P4 proteins share 11.3%-19.5%, 37.1%-49.8%, 26.7%-39.5%, 40.8%-49.7%, and 40.8%-49.7% amino acid sequence identity, respectively, with homologous inferred protein sequences from known poleroviruses. Phylogenetic analysis of P1-2 and P3 sequences places CnPV1 with other members of the genus Polerovirus, indicating that it should be classified in a new distinct species.

The complete genome sequence of Stellaria aquatica virus A, a new member of the genus Alphacarmovirus, family Tombusviridae.

A new member of the genus Alphacarmovirus was detected in Stellaria aquatica using high-throughput RNA sequencing analysis. The complete genome sequence of this new virus isolate, tentatively named "Stellaria aquatica virus A" (StAV-A), comprises 4,017 nucleotides with five predicted open reading frames (ORFs) and has a typical alphacarmovirus genome organization. Pairwise comparison of StAV-A with selected members of family Tombusviridae showed 44-58%, 32-64%, and 19-49% sequence identity for the overall nucleotide sequence, polymerase, and coat protein, respectively. Phylogenetic analysis of polymerase sequences places StAV-A alongside other members of the genus Alphacarmovirus in the family Tombusviridae.

One-step noninvasive prenatal testing (NIPT) for autosomal recessive homozygous point mutations using digital PCR.

Previously, we introduced a noninvasive prenatal testing (NIPT) protocol for diagnosing compound heterozygous autosomal recessive point mutations via maternal plasma DNA and simulated control genomic DNA sampling based on fetal DNA fraction. In our present study, we have improved our NIPT protocol to make it possible to diagnose homozygous autosomal recessive point mutations without the need to acquire fetal DNA fraction. Moreover, chi-squared test and empirical statistical range based on the proportion of mutant allele reads among the total reads served as the gatekeeping method. If this method yielded inconclusive results, then the Bayesian method was performed; final conclusion was drawn from the results of both methods. This protocol was applied to three families co-segregating congenital sensorineural hearing loss with monogenic homozygous mutations in prevalent deafness genes. This protocol successfully predicted the fetal genotypes from all families without the information about fetal DNA fraction using one-step dPCR reactions at least for these three families. Furthermore, we suspect that confirmatory diagnosis under this protocol is possible, not only by using picodroplet dPCR, but also by using the more readily available chip-based dPCR, making our NIPT protocol more useful in the diagnosis of autosomal recessive point mutations in the future.

Gaba transporter SLC6A11 gene polymorphism associated with tardive dyskinesia.

BACKGROUND: Gamma-aminobutyric acid (GABA) insufficiency has been reported to be related to the tardive dyskinesia (TD) susceptibility. Inada et al. (Pharmacogenet Genomics 2008;18:317-23) identified eight genes belonging to GABA receptor signaling pathway that may be involved in TD susceptibility by genome-wide screening and they replicated associations in an independent sample for polymorphisms in SLC6A11 (GABA transporter 3), GABRG3 (c-3 subunit of GABA-A receptor) and GABRB2 (ß-2 subunit of GABA-A receptor). In this study, we tried to replicate their finding in a larger Korean sample and find if any of the genes was associated with the susceptibility to TD. METHODS: We selected three polymorphisms in SLC6A11 (rs4684742), GABRG3 (rs2061051) and GABRB2 (rs918528) from the previous study. We carried out a case-control study (105 TD and 175 non-TD schizophrenic patients) to identify the association between the three candidate polymorphisms and susceptibility to TD and their epistatic interactions by using the multifactor dimensionality reduction (MDR) algorithm. RESULTS: Among the three variants, SCL6A11 genotypes distribution showed a significant difference between the TD and non-TD patients (P = 0.049). However, GABRG3 and GABRB2 genotype distributions were not associated with TD (P = 0.268 and P = 0.976, respectively). Further, our analyses provided significant evidence for gene-gene interactions (SCL6A11, GABRG3 and GABRB2) in the development of TD. The odds ratio increased to 2.53 (CI = 1.515-4.217, P = 0.0003) when the genetic susceptibility to TD was analyzed with the three genes considered altogether through MDR approach. CONCLUSION: These results suggest that GABA receptor signaling pathway was associated with the increased susceptibility to TD in Korean schizophrenic patients.

Molecular cytogenetic analysis of the monoblastic cell line U937. karyotype clarification by G-banding, whole chromosome painting, microdissection and reverse painting, and comparative genomic hybridization.

Previous reports on the analysis of the human monoblastic cell line U937 had described several sublines containing unidentified rearrangements and marker chromosomes. In order to determine the true nature of the rearrangements, conventional banding analysis was carried out with various combinations of molecular cytogenetic techniques: comparative genomic hybridization, fluorescence in situ hybridization (FISH) with whole chromosome painting probes, and microdissection and reverse painting FISH. The origins of the marker chromosomes were identified and the composite karyotype is described.