A reverse transcription-cross-priming amplification method with lateral flow dipstick assay for the rapid detection of Bean pod mottle virus

Bean pod mottle virus (BPMV) is a destructive virus that causes serious economic losses in many countries every year, highlighting the importance of its effective detection. In this study, we developed a fast reverse transcription-cross-priming amplification (RT-CPA) coupled with lateral flow dipstick (LFD) diagnostic method for BPMV detection. The RT-CPA-LFD assay that targets the coat protein gene of BPMV was highly specific against diagnosing four other common viruses transmitted by soybean seeds, i.e., Southern bean mosaic virus (SBMV), Tomato ringspot virus (ToRSV), Arabis mosaic virus (ArMV), and Tobacco ringspot virus (TRSV). The sensitivities of the real-time fluorescent RT-CPA and the RT-CPA-LFD assay were at least 50 pg/μl and 500 pg/μl, respectively. Despite a compromise in the limit of detection of the RT-CPA method compared with TaqMan-MGB real-time RT-PCR, our results demonstrated a notably better performance in the detection of field samples of BPMV-infested soybean seeds. With the advantages of efficiency and convenience by visual determination, the RT-CPA-LFD assay presents a potential application for the rapid and accurate detection of BPMV in routine tests.

Coprostanol as a Population Biomarker for SARS-CoV-2 Wastewater Surveillance Studies

Wastewater surveillance is a cost-effective tool for monitoring SARS-CoV-2 transmission in a community. However, challenges remain with regard to interpretating such studies, not least in how to compare SARS-CoV-2 levels between different-sized wastewater treatment plants. Viral faecal indicators, including crAssphage and pepper mild mottle virus, have been proposed as population biomarkers to normalise SARS-CoV-2 levels in wastewater. However, as these indicators exhibit variability between individuals and may not be excreted by everyone, their utility as population biomarkers may be limited. Coprostanol, meanwhile, is a bacterial metabolite of cholesterol which is excreted by all individuals. In this study, composite influent samples were collected from a large- and medium-sized wastewater treatment plant in Dublin, Ireland and SARS-CoV-2 N1, crAssphage, pepper mild mottle virus, HF183 and coprostanol levels were determined. SARS-CoV-2 N1 RNA was detected and quantified in all samples from both treatment plants. Regardless of treatment plant size, coprostanol levels exhibited the lowest variation in composite influent samples, while crAssphage exhibited the greatest variation. Moreover, the strongest correlations were observed between SARS-CoV-2 levels and national and Dublin COVID-19 cases when levels were normalised to coprostanol. This work demonstrates the usefulness of coprostanol as a population biomarker for wastewater surveillance studies.

Persistence of endogenous SARS-CoV-2 and pepper mild mottle virus RNA in wastewater settled solids

Limited information is available on the decay rate of endogenous SARS-CoV-2 and pepper mild mottle virus (PMMoV) RNA in wastewater and primary settled solids, potentially limiting an understanding of how transit or holding times within wastewater infrastructure might impact RNA measurements and their relationship to community COVID-19 infections. In this study, primary settled solids samples were collected from two wastewater treatment plants in the San Francisco Bay Area. Samples were thoroughly mixed, aliquoted into subsamples, and stored at 4°C, 22°C, and 37°C for 10 days. The concentration of SARS-CoV-2 (N1 and N2 targets) and PMMoV RNA was measured using an RT-ddPCR. Limited decay (< 1 log10 reduction) was observed in the detection of viral RNA targets at all temperature conditions, suggesting that SARS-CoV-2 and PMMoV RNA can be highly persistent in solids. First-order decay rate constants ranged from 0.011 - 0.098 day-1 for SARS-CoV-2 RNA and 0.010 - 0.091 day-1 for PMMoV RNA, depending on temperature conditions. Slower decay was observed for SARS-CoV-2 RNA in primary settled solids compared to previously reported decay in wastewater influent. Further research is needed to understand if solid content and wastewater characteristics might influence the persistence of viral RNA targets.

Evaluation of the Chilli veinal mottle virus CP gene expressing transgenic Nicotiana benthamiana plants for disease resistance against the virus

Vegetables are an important source of income and high-value crops for small farmers. Chilli (Capsicum spp.) is one of the most economically important vegetables of Pakistan and it is grown throughout the country. It is a rich source of nutrition especially vitamins A, B, C and E along with minerals as folic acid, manganese (Mn), potassium (K) and molybdenum (Mo). Chilli possesses seven times more amount of vitamin C than an orange. Vitamin A, C and beta-carotenoids are strong antioxidants to scavenge the free radicals. Chilli production is restricted due to various biotic factors. Among these viruses, Chilli veinal mottle virus (ChiVMV) is one of the most destructive and menacing agents that inflicts heavy and colossal losses that accounted for 50% yield loss both in quality and quantity. Pathogen-Derived Resistance (PDR) approach is considered one of the effective approaches to manage plant viruses. In this study, ChiVMV was characterized on a molecular level, the coat protein (CP) gene of the virus was stably transformed into Nicotiana benthamiana plants using Agrobacterium tumefaciens. The transgenic plants were challenged with the virus to evaluate the level of resistance of plants against the virus. It was observed that the plants expressing CP gene have partial resistance against the virus in terms of symptoms’ development and virus accumulation. Translation of this technique into elite chilli varieties will be resulted to mitigate the ChiVMV in the crop as well as an economic benefit to the farmers.

Kloning Gen Coat Protein (CP) Carnation Mottle Virus (CarMV) pada Vektor Ekspresi [Cloning of Carnation Mottle Virus (CarMV) Coat Protein Gene into Expression Vector]

<p>Carnation mottle virus (CarMV) termasuk anggota genus Carmovirus dalam famili Tombusviridae. Virus ini banyak ditemukan menginfeksi tanaman anyelir di Jawa Barat dan menyebabkan gejala mottle. Sebagai langkah awal untuk memproduksi antiserum melalui teknik ekspresi gen CP perlu diklon pada vektor yang sesuai. Penelitian ini bertujuan mendapatkan klon CarMV yang berfungsi melalui kloning dan subkloning gen CP CarMV ke dalam vektor ekspresi yang sesuai. Penelitian dilakukan dalam beberapa tahap, yaitu ekstraksi RNA total dan amplifikasi cDNA CarMV dengan RT-PCR, menggunakan primer spesifik CarMVF dan CarMVR yang mengandung situs enzim restriksi XhoI dan BamHI, kloning dan subkloning DNA sisipan, serta konfirmasi transforman. Rekombinan gen sisipan CP CarMV dalam bakteri dikonfirmasi dengan koloni PCR. Gen CP CarMV berhasil dikloning ke dalam TA vektor pTZ57R/T dan disubkloning ke vektor ekspresi pET28a. Sekuen rekombinan CP CarMV berhasil dikonfirmasi melalui perunutan DNA. Penelitian lebih lanjut diperlukan untuk mendapatkan produksi antigen rekombinan yang melimpah pada bakteri ekspresi dan kondisi yang sesuai.</p><p><strong>Keywords</strong></p><p>Dianthus caryophillus L.; Carmovirus; Kloning; Subkloning; Bakteri ekspresi</p><p><strong>Abstract</strong></p><p>Carnation mottle virus (CarMV) is a type member of Carmovirus genus in family of Tombusvirus. The virus infects carnation plants in the centre area production of West Java and it cause mottle symptoms. The research aimed to obtain functional clone(s) of CarMV CP gene in suitable expression kloning vector. The research was carried out through several steps, namely total RNA extraction and amplification of cDNA of CP CarMV by RT-PCR using specific primer pairs CarMVF and CarMVR containing restriction enzyme sites XhoI and BamHI, respectively, TA cloning, and subcloning into expression vector pET28a and confirmation of recombinant plasmids by colony PCR. CarMV CP gen was successfully cloned into TA cloning vector pTZ57R/T and subcloned into vector pET28a, alsowere confirmed by DNA sequencing. Future experiment is necessary to be conducted to obtain abundance recombinant antigen production of CarMV CP in suitable expression condition and bacterial host.</p>

Inhibitory Effect of Chitosan and Phosphate Cross-linked Chitosan against Cucumber Mosaic Virus and Pepper Mild Mottle Virus

Cucumber mosaic virus (CMV) and Pepper mild mottle virus (PMMoV) causes severe economic loss in crop productivity of both agriculture and horticulture crops in Korea. The previous surveys showed that naturally available biopolymer material – chitosan (CS), which is from shrimp cells, reduced CMV accumulation on pepper. To improve the antiviral activity of CS, it was synthesized to form phosphate cross-linked chitosan (PCS) and compared with the original CS. Initially, the activity of CS and PCS (0.01%, 0.05%, and 0.1% concentration) compound against PMMoV infection and replication was tested using a half-leaf assay on Nicotiana glutinosa leaves. The total number of local lesions represented on a leaf of N. glutinosa were counted and analyzed with phosphate buffer treated leaves as a negative control. The leaves treated with a 0.1% concentration of CS or PCS compounds exhibited an inhibition effect by 40-75% compared with the control leaves. The same treatment significantly reduced about 40% CMV accumulation measured by double antibody sandwich enzyme-linked immunosorbent assay and increased the relative expression levels of the NPR1, PR-1, cysteine protease inhibitor gene, LOX, PAL, SRC2, CRF3 and ERF4 genes analyzed by quantitative reverse transcriptase-polymerase chain reaction, in chili pepper plants.

Differential symptom development and viral RNA loads in ten Nicotiana benthamiana accessions infected with the tobamovirus yellow tailflower mild mottle virus

Yellow tailflower mild mottle virus (YTMMV, genus Tobamovirus) was identified from wild plants of solanaceous species in Australia. Nicotiana benthamiana is a species indigenous to the arid north of Australia. N. benthamiana accession RA-4 or the ‘lab’ type, which has a mutant, functionally-defective, RNA-dependent RNA polymerase 1 (Rdr1) gene (Nb-Rdr1m), has played a significant role in plant virology, but little study has been done on responses to virus infection by other accessions of N. benthamiana. All wild-collected N. benthamiana accessions used in this study harboured wild-type Rdr1 genes (Nb-Rdr1). We compared symptoms of YTMMV infection and viral RNA load on RA-4 and nine wild-collected accessions of N. benthamiana from mainland Western Australia, an island, and the Northern Territory. After inoculation with YTMMV, RA-4 plants responded with systemic hypersensitivity and all individuals were dead 35 days post-inoculation (dpi). Plants of wild-collected accessions exhibited a range of symptoms, from mild to severe, and some, but not all, individuals died in the same period. Quantitative reverse transcription PCR revealed that the Rdr1 mutation was not a predictor of viral RNA load or symptom severity. For example, wild-collected A019412 plants carried over twice the viral RNA load of RA-4 plants, but symptom expression was moderate. For plants of most accessions, viral RNA load did not increase after 10 dpi. The exception was plants of accession Barrow-1, where viral RNA load was low until 15 dpi, after which it increased over 29-fold. This study revealed differential responses by N. benthamiana accessions to infection by an isolate of YTMMV. The Rdr1 gene, whether mutant or wild-type, did not appear to influence viral RNA load or disease expression. Genetic diversity of the ten N. benthamiana lines in some cases reflected geographical location, but in other lines this was not so.

First report of Gentian Kobu-sho-associated virus infecting peony in the United States and the Netherlands

Lemoine’s disease of peonies (LDP) is associated with root galls that could lead to stunted growth and reduced flowering. In the quest to identify the causal agent(s) of LDP, two symptomatic plants (cv. Alice Crousse [AC] and Alice Harding [AH]) were sampled in Arkansas in 2019 and sequenced as described (Shaffer et al., 2019). Gentian Kobu-sho-associated virus (GKaV) was present in both plants. The contigs from AH were mapped to the reference sequence of GKaV (AB698918; Kobayashi et al. 2013) yielding 87% of the ~23kb genome, which was completed by Sanger sequencing (Genbank accession no. MW646307) as per Thekke-Veetil et al. (2013). Sample AC was co-infected with cycas necrotic stunt virus (CNSV) and AH with CNSV, citrus leaf blotch virus and lychnis mottle virus. Gentiana triflora -Pall. and G. scabra Bunge plants with Kobu-sho disease symptoms that include galls/tumors on all parts of gentian were also positive for GKaV (Iwadate et al. 2006; Kodama et al. 2004). The striking similarity between symptoms of the two diseases led to the development of a GKaV screening protocol to determine its presence in LPD-affected material. Primers GKaVF 5’-TTAGTGATGAGTGCCTTTTCC-3’ and GKaVR 5’-CTGCCAGTCTTCTTGTGAACC-3’ which amplify a 574 nt region of the virus were used to screen 144 peony leaf samples from the University of Michigan’s Nichols Arboretum collection. Thirty-two (32) plants were stunted whereas 112 displayed normal growth. Nineteen (59%) of the stunted plants tested positive for GKaV compared to eight (6.5%) of the symptomless plants. Partial GKaV genome sequences of three isolates from stunted Michigan plants were deposited in GenBank (MW646310-12) along with three GKaV isolates from Arkansas collected at the same location and time as AC and AH (MW646308-9, MW646313); two had LDP symptoms and the status of the third was unknown. In 2020 four peony root samples from the Netherlands were sequenced as described in Hammond et al. (2021) to identify the causal agent of root galls in three samples. GKaV was present in two: cv. Paul M. Wild and #40391499 and the nearly complete genome sequences were deposited in GenBank (MW916234-5). ‘Paul M. Wild’ was co-infected with cucumber mosaic virus and tobacco rattle virus and #40391499 with a novel amalgavirid. The third symptomatic cv. Many Happy Returns was infected with CNSV while the fourth symptomless cv. Itoh was infected with CNSV and amazon lily mild mottle virus (Shaffer et al., 2021). Percent pairwise identities between sequences were calculated using the SDT Version 1.2 (Muhire et al. 2014). The six partial GKaV sequences from Michigan and Arkansas share 92-100% nt (98-100% aa) identity. Analysis of the three near full length GKaV genomes presented in this communication and the type isolate (NC020252) showed 87-91% nt (93-97% aa) identity. This report provides evidence that GKaV infects peony and is present in Europe and North America. The association of GKaV with LDP is not established, but the virus has been detected in 59% of the plants showing disease symptoms and in ˂7% of asymptomatic plants. We hypothesize that as in the case of Gentian, GKaV has an extended incubation period in peony (Kobayashi et al., 2013) and its titer may fluctuate between seasons as it has been well established for other crops (Villamor et al., 202x). The industry does not perform virus clean-up routinely; propagation material should be tested for GKaV to minimize its spread since the virus may be associated with LDP in at least some cultivars.