First Report of the Occurrence of Grapevine leafroll‐associated virus‐5 in Turkish Vineyards

Surveys were made in the main grape growing region (Southeast Anatolia) of Turkey for the occurrence of Grapevine leafroll‐associated virus‐5 (GLRaV‐5). Plant samples with typical leafroll symptoms and mealybugs, Planococcus ficus (Signoret) were used for assessing the occurrence of GLRaV‐5 by RT‐PCR. A 272 bp band representing GLRaV‐5 infection was successfully detected in plants and mealybugs in some vineyards of the Southeast Anatolia region and the virus is the first time reported in Turkish vineyards.     

One‐step Multiplex RT‐PCR for Simultaneous Detection of Four Viruses in Tobacco

A one‐step multiplex RT‐PCR method has been developed for the simultaneous detection of four viruses frequently occurring in tobacco (Cucumber mosaic virus, Tobacco mosaic virus, Tobacco etch virus and Potato virus Y). Four sets of specific primers were designed to work with the same reaction reagents and cycling conditions, resulting in four distinguishable amplicons representative of the four viruses independently. This one‐step multiplex RT‐PCR is consistently specific using different combinations of virus RNA as templates, and no non‐specific band was observed. It has high sensitivity compared to single RT‐PCR. Moreover, field samples in China can be tested by this method for virus detection. Our results show that one‐step multiplex RT‐PCR is a high‐throughput, specific, sensitive method for tobacco virus detection.     

Nano‐based methods for novel coronavirus 2019 (2019‐nCoV) diagnosis: A review

Today, tremendous attention has been devoted to a new coronavirus, SARS‐CoV‐2 (2019‐nCoV), due to severe effects on the global public in all over the world. Rapid and accurate diagnosis of 2019‐nCoV are important for early treatment and cutting off epidemic transmission. In this regard, laboratory detection protocols, such as polymerase chain reaction (PCR) and computed tomography (CT) examination, have been utilized broadly for 2019‐nCoV detection. Recently, nano‐based methods for 2019‐nCoV diagnoses are rapidly expanding and declaring comparable results with PCR and CT. In this review, recent advances in nano‐based techniques have been highlighted and compared briefly with PCR and CT as well‐known methods for 2019‐nCoV detection.     

Detection of Olive‐infecting Viruses in Tunisia

During a virus survey in autumn 2007 and spring 2008 of two Tunisian olive mother blocks, 175 olive samples were collected from 19 different cultivars and tested by RT‐PCR for the presence of Arabis mosaic virus (ArMV), Cherry leaf roll virus (CLRV), Cucumber mosaic virus (CMV), Olive latent ringspot virus (OLRSV), Olive latent virus 1 (OLV‐1), Olive latent virus 2 (OLV‐2), Olive leaf yellowing‐associated virus (OLYaV) and Strawberry latent ringspot virus (SLRSV), using specific sets of primers. The PCR‐negative samples were also subjected to dsRNA and mechanical transmission tests. PCR results indicated that c. 86% of the trees were infected with at least one virus, whereas visible bands were shown by 3 of 24 PCR‐negative samples in dsRNA analysis. OLYaV was the most prevalent virus (49.1%), followed by OLV‐1 (34.3%), CMV (25.7%), OLRSV (16.6%), CLRV (13.1%), SLRSV (7.4%) and OLV‐2 (6.9%), whereas ArMV was not detected. Very high infection rates were found in the two main oil cvs. Chemlali (84.6%) and Chétoui (86.9%).     

Detection of Garlic Viruses Using SYBR Green Real‐time Reverse Transcription‐Polymerase Chain Reaction

SYBR Green real‐time RT‐PCR assay was developed and optimized for the sensitive detection of Onion yellow dwarf virus (OYDV), Leek yellow stripe virus (LYSV), Garlic common latent virus (GCLV), Shallot latent virus (SLV) and Mite‐borne filamentous virus (MbFV). The polyvalence of the designed primers was tested on 50 genotypes of garlic (Allium sativum L.) which originated from different countries. Plasmid standards were prepared and used as positive standards. The efficiencies of all reactions were 97, 93, 99, 98 and 87% for OYDV, LYSV, SLV, GCLV and MbFV standards, respectively. The detection limit for OYDV, LYSV and GCLV was as low as five gene copies, for SLV it was 15 gene copies and for MbFV it was 130 gene copies. In comparison with ELISA, more virus‐positive garlic accessions were detected with LYSV and GCLV by SYBR Green‐based real‐time RT‐PCR assay. This method was shown to be a more suitable tool for the detection of highly variable pathogens, such as garlic viruses.     

Circulating microRNAs,miR‐92a,miR‐100 and miR‐143, as non‐invasive biomarkers for bladder cancer diagnosis

The application of microRNAs (miRNAs) as potential biomarkers and therapy targets has been widely investigated in many kinds of cancers. Recent advantages of serum miRNAs open a new realm of possibilities for non‐invasive diagnosis and prognosis of bladder cancer (BC). The aim of our study was to identify plasma miR‐92a, miR‐100 and miR‐143 expression signatures in patients with BC to introduce new markers for establishing BC diagnosis and prognosis. Blood samples were collected from 70 BC patients and 62 controls. An expression of three target miRNAs (miR‐92a, miR‐100 and miR‐143) was measured using quantitative real‐time PCR method. Results were correlated with clinicopathological data and analysed. Plasma levels of miR‐92a, miR‐100 and miR‐143 were significantly lower in BC patients than in control group. Receiver operator characteristic analysis revealed that the sensitivity and specificity values of miR‐92a were 97·1% and 76·7%, respectively, with a cut‐off value of 0·573. The sensitivity and specificity values of miR‐100 were 90% and 66·7%, respectively, with a cut‐off value of 0·644. The sensitivity and specificity values of miR‐143 were 78·6% and 93·3%, respectively, with a cut‐off value of 0·164. This study explores the existence of specific plasma miRNAs as early diagnostic biomarkers for BC in Egyptian patients; and these findings suggest that plasma miR‐92a, miR‐100 and miR‐143 could be promising novel circulating biomarkers in clinical detection of BC. Copyright © 2016 John Wiley & Sons, Ltd.     

Cloning of the Glyceraldehyde 3‐phosphate Dehydrogenase Gene of Flavescence dorée Phytoplasma and Development of Serological and Molecular Tools for Studying its Expression

The glyceraldehyde 3‐phosphate dehydrogenase (gapA) gene codes for a protein involved in the glycolytic pathway and is commonly used in Real‐Time RT‐PCR quantification studies as housekeeping gene. In this work we cloned and sequenced the full‐length gapA gene from Flavescence dorée phytoplasma (FDp). A ～35 kDa recombinant GapA protein was over‐expressed in Escherichia coli, purified and used as antigen to raise anti‐GapA rabbit polyclonal antibodies. The antiserum detected the GapA protein by western blot analysis of total protein extracts of FDp‐infected experimental host (Catharanthus roseus) and grapevine plants collected in the field. We also developed an FDp‐specific gapA Taqman Real‐Time RT‐PCR assay suitable for quantification overtime of gapA mRNA in infected plants.     

Occurrence and reduction of human viruses,F‐specific RNA coliphage genogroups and microbial indicators at a full‐scale wastewater treatment plant in Japan

Aims

To evaluate and compare the reductions of human viruses and F‐specific coliphages in a full‐scale wastewater treatment plant based on the quantitative PCR (qPCR) and plate count assays.

Methods and Results

A total of 24 water samples were collected from four locations at the plant, and the relative abundance of human viruses and F‐RNA phage genogroups were determined by qPCR. Of the 10 types of viruses tested, enteric adenoviruses were the most prevalent in both influent and effluent wastewater samples. Of the different treatment steps, the activated sludge process was most effective in reducing the microbial loads. Viruses and F‐RNA phages showed variable reduction; among them, GI and GIII F‐RNA phages showed the lowest and the highest reduction, respectively.

Conclusions

Ten types of viruses were present in wastewater that is discharged into public water bodies after treatment. The variability in reduction for the different virus types demonstrates that selection of adequate viral indicators is important for evaluating the efficacy of wastewater treatment and ensuring the water safety.

Significance and Impact of the Study

Our comprehensive analyses of the occurrence and reduction of viruses and indicators can contribute to the future establishment of appropriate viral indicators to evaluate the efficacy of wastewater treatment.     

Detection of exogenous double‐stranded RNA movement in in vitro peanut plants

• New technologies are needed to eliminate mycotoxins and/or fungal pathogens from agricultural products. RNA interference (RNAi) has shown potential to control fungi associated with crops. In RNAi, double‐stranded RNA (dsRNA) targets homologous mRNA for cleavage, and can reach the mRNA of pathogens in contact with the plant. The key element in this process is the movement of RNA signals cell‐to‐cell and over long distances within the plant, and between host plants and parasites.
• In this study, we selected a regulatory gene in the aflatoxin biosynthesis pathway, aflS/aflR, necessary for the production of aflatoxins in Aspergillus spp. We designed a Dicer‐substrate RNA (DsiRNA) to study the movement and stability of the duplex over time in in vitro peanut plants using stem‐loop primers and RT‐PCR for DsiRNA detection.
• The preliminary results demonstrated that DsiRNA was absorbed and moved away from the point of application, spread systemically and was transported rapidly, most likely through the phloem of the shoot, to the sink tissues, such as new auxiliary shoots, flowers and newly formed pegs. The DsiRNA remained detectable for at least 30 days after treatment.
• This is the first time that movement of exogenous DsiRNA in in vitro peanut plants has been described. Since DsiRNA was detectable in the pegs 15 days after treatment, aflatoxin reduction may be possible if the duplexes containing part of the aflatoxin biosynthesis pathogen gene induce silencing in the peanut seeds colonised by Aspergillus spp. The application of small RNAs could be a non‐transformative option for mycotoxin contamination control.