Comparative genomics reveals signature regions used to develop a robust and sensitive multiplex TaqMan real-time qPCR assay to detect the genus Dickeya and Dickeya dianthicola.

AIMS: Dickeya species are high consequence plant pathogenic bacteria; associated with potato disease outbreaks and subsequent economic losses worldwide. Early, accurate and reliable detection of Dickeya spp. is needed to prevent establishment and further dissemination of this pathogen. Therefore, a multiplex TaqMan qPCR was developed for sensitive detection of Dickeya spp. and specifically, Dickeya dianthicola. METHODS AND RESULTS: A signature genomic region for the genus Dickeya (mglA/mglC) and unique genomic region for D. dianthicola (alcohol dehydrogenase) were identified using a whole genome-based comparative genomics approach. The developed multiplex TaqMan qPCR was validated using extensive inclusivity and exclusivity panels, and naturally/artificially infected samples to confirm broad range detection capability and specificity. Both sensitivity and spiked assays showed a detection limit of 10 fg DNA. CONCLUSION: The developed multiplex assay is sensitive and reliable to detect Dickeya spp. and D. dianthicola with no false positives or false negatives. It was able to detect mixed infection from naturally and artificially infected plant materials. SIGNIFICANCE AND IMPACT OF THE STUDY: The developed assay will serve as a practical tool for screening of propagative material, monitoring the presence and distribution, and quantification of target pathogens in a breeding programme. The assay also has applications in routine diagnostics, biosecurity and microbial forensics.

Ultra-sensitive detection of papaya ringspot virus using single-tube nested PCR.

Aphid-transmitted papaya ringspot virus (PRSV) is the greatest disease threat to the commercial production of papaya worldwide. Specific ultrasensitive assays are important for the early detection of PRSV in the field. We have developed a single-tube nested PCR (STNP) assay to address this need. Two nested PCR primer sets were designed to target the P3 gene of PRSV. The annealing temperatures and concentrations of both primer pairs were optimized to reduce potential competition between primer sets in STNP. The assay is more sensitive than regular RT-PCR as determined by serial dilutions of cDNA and RNA templates and sample extracts from infected plants. STNP is capable of detecting PRSV in plants 7 days post-inoculation, whereas RT-PCR and ELISA are capable of detecting PRSV 14 to 21 days post-inoculation. This new assay can also detect PRSV from virus infected but asymptomatic plants. This system could assist epidemiological studies in the field and in quarantine protocols by enabling early detection of very low PRSV infection rates in the field and in imported plant samples. Keywords: early detection; quarantine protocols.

Phylogenetic Diversity of Rhizoctonia solani Associated with Canola and Wheat in Alberta, Manitoba, and Saskatchewan.

Rhizoctonia solani is a damaging soilborne pathogen, which affects most field crops in the Canadian provinces of Alberta, Manitoba, and Saskatchewan. The objective of this study was to conduct a phylogenetic comparison of isolates of R. solani collected from a previous survey in the major canola- and wheat-growing regions of western Canada. A total of 128 multinucleate isolates from a previous survey were identified by internal transcribed spacer (ITS) sequence and compared to anastomosis group (AG) results. The multinucleate isolates of R. solani were grouped into eight distinct clades. Each clade corresponded to a specific AG with the exception of two distinct clades that were observed for isolates classified as AG 2-1 by anastomosis testing. While most isolates of AG 5 clustered together according to ITS sequences, three isolates classified by anastomosis grouping as AG 5 grouped with AG 2-1, AG 4, and a binucleate Rhizoctonia sp. in the phylogenetic analysis. In most instances, the results from AG tests were consistent with ITS sequence, but there were still several cases where isolates were inconsistently classified or failed to undergo anastomosis with any of the tester strains used in this study. This provides support for the use of the ITS region as a valuable tool for rapid identification of R. solani isolates to their respective AGs.

First Report of Taro vein chlorosis virus Infecting Taro (Colocasia esculenta) in the United States.

In March 2013, taro plants (Colocasia esculenta [L.] Schott cv. Iliuaua) with leaves displaying veinal chlorosis and necrosis were observed on the island of Molokai. These symptoms were similar to those of taro vein chlorosis, a disease of taro caused by Taro vein chlorosis virus (TaVCV; family Rhabdoviridae, genus Nucleorhabdovirus). To explore this possibility, RNA was isolated from both symptomatic and asymptomatic taro leaves using the NucleoSpin RNA II extraction kit (Macherey-Nagel, Bethlehem, PA) according to the provided protocol, except that RLT Buffer (Qiagen Inc., Valencia, CA) was used as the initial extraction buffer. The RNAs were converted to cDNA using random primers and MMLV-RT reverse transcriptase (Promega, Madison, WI). The cDNA underwent PCR assays using primer sets Pol2A1/Pol2A2 and Cap2A/Cap2B which target the RNA-dependent RNA polymerase (RdRp) and putative nucleocapsid genes of TaVCV, respectively (1). Amplification products of the correct size were obtained for both primer sets, and these underwent molecular cloning using pGEM-T Easy (Promega). Three clones were selected and their sequences determined by dye-terminator sequencing. After primer sequence removal, the Pol2A1/Pol2A2 product (952 bp; GenBank Accession No. KF921085) and Cap2A/Cap2B product (1,050 bp; KF921086) were found to be 79 and 84% identical to a Fijian strain of TaVCV (AY674964), respectively. Samples from 328 plants with and without taro vein chlorosis symptoms were collected from 35 sites on five of the Hawaiian islands and assayed for TaVCV using the Pol2A1/Pol2A2 primer set as described above. The incidence of TaVCV in these samples was 21.6%, with positive samples coming from each island. Although a very strong association between symptoms and the presence of TaVCV was observed, eight asymptomatic plants were also positive, suggesting the detection assay was able to detect the virus before the onset of symptoms. Conversely, three symptomatic plants were found to be negative, suggesting the Pol2A1/Pol2A2 PCR assay might not detect all strains of TaVCV in Hawaii. A digoxygenin-labeled probe (Roche Applied Science, Indianapolis, IN) derived from the Pol2A1/Pol2A2 amplification product of one sample hybridized with the cDNA of only four of nine TaVCV-infected samples collected from three different islands in a dot-blot hybridization assay performed at high stringency. This probe did not hybridize with the cDNA of five TaVCV-negative samples. TaVCV exhibits a great deal of genetic diversity in the South Pacific nations where it is found; nucleotide divergence of up to 27% in regions of the RdRp gene has been reported (1). The high genetic divergence between the TaVCV isolate characterized in Hawaii and the TaVCV accession in GenBank, as well as the dot blot hybridization assay results support this observation. The widespread distribution of TaVCV in Hawaii suggests it is not a recent introduction. However, the common practice of farmers sharing taro propagules has likely accelerated its spread. An arthropod vector of TaVCV has yet to be identified, so it is unknown whether natural spread is also occurring in Hawaii. Taro has both economic and cultural importance to Hawaii. These findings, representing the first detection of TaVCV in Hawaii and the United States, illustrate the need to develop virus-free germplasm for local, national, and international distribution of this important staple crop. Reference: (1) P. Revill et al. J. Gen Virol. 86:491, 2005.

First Report of Capsicum chlorosis virus Infecting Waxflower (Hoya calycina Schlecter) in the United States.

In February 2013, an ornamental waxflower (Hoya calycina Schlecter) with leaves displaying concentric chlorotic and necrotic rings surrounding sunken, necrotic lesions typical of tospovirus infection was observed at a community garden in Honolulu, HI. Symptomatic leaf tissue tested negative for Tomato spotted wilt virus (TSWV), a common tospovirus in Hawaii, using a TSWV ImmunoStrips (AgDia, Elkhart, IN) assay following the manufacturer's instructions. Double-stranded RNAs were isolated from a symptomatic leaf and reverse transcribed using random primers (2). The cDNA was then used as template in a universal tospovirus PCR assay using primers gL3637 and gL4435c, which amplify sequences of the L segment encoding the RNA-dependent RNA polymerase of tospoviruses (1). An ~800-bp product was amplified and cloned using pGEM-T Easy (Promega, Madison, WI). Three clones were selected and found to be identical by dye-terminator sequencing performed at the University of Hawaii's Advanced Studies in Genomics, Proteomics, and Bioinformatics laboratory. Following primer sequence trimming, the 773-bp sequence (GenBank Accession No. KF030938) was found to be 97, 88, and 87% identical to Capsicum chlorosis virus (CaCV; a tentative species in the family Bunyaviridae, genus Tospovirus) strains Ch-Har (GU199334), TwTom1 (HM021140), and AIT (DQ256124), respectively. To confirm the presence of CaCV, the cDNA was also used as template in a universal tospovirus PCR assay with primers 3'T12 and TsMCR2 which amplify a region of the S segment of tospoviruses (3). The amplification product from this assay was cloned and sequenced as described above and found to be 93 to 98% identical to CaCV nucleotide sequences present in GenBank. Attempts to detect the CaCV strain in waxflower using a watermelon silver mottle virus and groundnut bud necrosis virus triple antibody sandwich ELISA (AgDia) were unsuccessful. No other plants in the community garden had typical tospovirus-like symptoms; however, samples from tomato (Solanum lycopersicum L.; two samples), chili pepper (Capsicum spp.; four samples), eggplant (Solanum melongena L.; one sample), and passionfruit (Passiflora edulis Sims; one sample) with virus-like symptoms were collected from the garden and had RNA isolated using a NucleoSpin RNA II kit (Macherey-Nagel, Bethlehem, PA). No tospoviruses were detected in any of these samples with the RT-PCR assay using primers gL3637 and gL4435. The waxflower plant infected with CaCV was immediately removed by community garden members and destroyed, preventing any additional serological or biological assays to be performed. CaCV is transmitted by several species of thrips, including Thrips palmi, which is present in Hawaii. Waxflower is not native to Hawaii and it is unclear whether CaCV entered Hawaii in this plant or whether it was infected by viruliferous thrips. A survey for CaCV in known hosts is essential to determine the geographic distribution of CaCV in Hawaii, as this virus poses a considerable threat to tomato, chili pepper, and phalaenopsis orchid production in Hawaii and the United States. References: (1) F.-H. Chu et al. Phytopathology 91:361, 2001. (2) M. J. Melzer et al. Virus Genes 40:111, 2010. (3) M. Okuda and K. Hanada. J. Virol. Methods 96:149, 2001.

Chromatin alterations during pollen development in Hordeum vulgare.

The dynamics of posttranslational histone modifications in relation to nuclear architecture has been analyzed during pollen development in Hordeum vulgare L. cv. Igri. Notwithstanding the asymmetry of cytokinesis associated with pollen mitosis I, immunolabeling revealed that the vegetative and generative nuclei initially display identical chromatin modification patterns. Yet, differential chromatin modification patterns between vegetative and generative nuclei emerge with the development of conspicuous differences in nuclear morphology as visualized by 4',6-diamidino-2-phenylindole staining. The temporal and spatial distribution of most histone modifications observed is in agreement with reduced gene activity in the generative nucleus and increased expression in the vegetative nucleus as indicated by immunolabeling of active RNA polymerase II. Signals of trimethylation of histone H3 lysine 27 proved to be particularly enriched in euchromatic domains of subtelomeric regions. In the context of nuclear differentiation in bicellular pollen, this modification became restricted to the vegetative nucleus, indicating a role in activating rather than suppressing gene expression. The presence of acetylated histone H3 at lysine 9 in the cytoplasm of the generative cell is indicative of a more complex, still unknown function of this particular modification.

30-day mortality in UK patients with bacteraemic community-acquired pneumonia.

OBJECTIVES: To determine 7 and 30-day mortality in consecutive patients with bacteraemic community-acquired pneumonia (CAP) and the association between predicted variables and likelihood of death. METHODS: From August 2007 to July 2011, demographic, clinical and microbiological data were prospectively collected on patients with bacteraemic CAP. Patients were followed until death, hospital discharge or recovery from infection. Univariate and multivariate analysis was performed to determine the association between predictor variables and 30-day mortality. RESULTS: 7-day mortality was 61/252 [24.4%, 95% confidence interval (CI) 19.1-30.0%] and by 30 days, this had risen to 77/252 (30.6%, 95% CI 24.9-36.6%). In univariate analysis, factors associated with 30-day mortality were age, speciality within 48 h of admission, blood culture isolate and Charlson co-morbidity index (CCI). In multivariate analysis, age and CCI remained significantly associated. There was also a trend towards significance for meticillin-sensitive Staphylococcus aureus (MSSA) and Pseudomonas aeruginosa blood culture isolates compared to Streptococcus pneumoniae. CONCLUSIONS: Overall, bacteraemic CAP was associated with high inpatient mortality. Because of their association with poor outcomes, patients with MSSA and P. aeruginosa bacteraemic CAP require further study.

Time-lapse imaging of the initiation of pollen embryogenesis in barley (Hordeum vulgare L.).

Pollen embryogenesis provides exciting opportunities in the areas of breeding and biotechnology as well as representing a convenient model for studying the process of plant cell proliferation in general and embryogenesis in particular. A cell culture system was devised in which immature barley pollen could be cultured as a monolayer trapped between the bottom glass-cover slip of a live-cell chamber and a diaphanous PTFE membrane within a liquid medium over a period of up to 28 d, allowing the process of embryogenesis to be tracked in individual pollen. Z-stacks of images were automatically captured every 3min, starting from the unicellular pollen stage up to the development of multicellular, embryogenic structures. The method should prove useful for the elucidation of ultrastructural features and molecular processes associated with pollen embryogenesis.

Pineapple bacilliform CO virus: Diversity, Detection, Distribution, and Transmission.

Members of the genus Badnavirus (family Caulimovirdae) have been identified in dicots and monocots worldwide. The genome of a pineapple badnavirus, designated Pineapple bacilliform CO virus-HI1 (PBCOV-HI1), and nine genomic variants (A through H) were isolated and sequenced from pineapple, Ananas comosus, in Hawaii. The 7,451-nucleotide genome of PBCOV-HI1 possesses three open reading frames (ORFs) encoding putative proteins of 20 (ORF1), 15 (ORF2), and 211 (ORF3) kDa. ORF3 encodes a polyprotein that includes a putative movement protein and viral aspartyl proteinase, reverse transcriptase, and RNase H regions. Three distinct groups of putative endogenous pineapple pararetroviral sequences and Metaviridae-like retrotransposons encoding long terminal repeat, reverse-transcriptase, RNase H, and integrase regions were also identified from the pineapple genome. Detection assays were developed to distinguish PBCOV-HI1 and genomic variants, putative endogenous pararetrovirus sequences, and Ananas Metaviridae sequences also identified in pineapple. PBCOV-HI1 incidences in two commercially grown pineapple hybrids, PRI 73-114 and PRI 73-50, was 34 to 68%. PBCOV-HI1 was transmitted by gray pineapple mealybugs, Dysmicoccus neobrevipes, to pineapple.

First Report of Pepper mottle virus Infecting Tomato in Hawaii.

In August 2011, tomato (Solanum lycopersicum L.) fruit from a University of Hawaii field trial displayed mottling symptoms similar to that caused by Tomato spotted wilt virus (TSWV) or other tospoviruses. The foliage from affected plants, however, appeared symptomless. Fruit and leaf tissue from affected plants were negative for TSWV analyzed by double antibody sandwich (DAS)-ELISA and/or TSWV ImmunoStrips (Agdia, Elkhart, IN) when performed following the manufacturer's instructions. Total RNA from a symptomatic and an asymptomatic plant was isolated using an RNeasy Plant Mini Kit (Qiagen, Valencia, CA) and reverse transcribed using Invitrogen SuperScript III reverse transcriptase (Life Technologies, Grand Island, NY) and primer 900 (5'- CACTCCCTATTATCCAGG(T)16-3') following the enzyme manufacturer's instructions. The cDNA was then used as template in a universal potyvirus PCR assay using primers 900 and Sprimer, which amplify sequences encoding the partial inclusion body protein (NIb), coat protein, and 3' untranslated region of potyviruses (1). A ~1,700-bp product was amplified from the cDNA of the symptomatic plant but not the asymptomatic plant. This product was cloned using pGEM-T Easy (Promega, Madison, WI) and three clones were sequenced at the University of Hawaii's Advanced Studies in Genomics, Proteomics, and Bioinformatics laboratory. The 1,747-bp consensus sequence of the three clones was deposited in GenBank (Accession No. JQ429788) and, following primer sequence trimming, found to be 97% identical to positions 7,934 through 9,640 of Pepper mottle virus (PepMoV; family Potyviridae, genus Potyvirus) accessions from Korea (isolate '217' from tomato; EU586126) and California (isolate 'C' from pepper; M96425). To determine the incidence of PepMoV in the field trial, all 292 plants representing 14 tomato cultivars were assayed for the virus 17 weeks after planting using a PepMoV-specific DAS-ELISA (Agdia) following the manufacturer's directions. Plants were considered positive if their mean absorbance at 405 nm was greater than the mean absorbance + 3 standard deviations + 10% of the negative control samples. The virus incidence ranged from 4.8 to 47.6% for the different varieties, with an overall incidence of 19.9%. Although plant growth was not noticeably impaired by PepMoV infection, the majority of fruit from infected plants was unsaleable, making PepMoV a considerable threat to tomato production in Hawaii. PepMoV has been reported to naturally infect tomato in Guatemala (3) and South Korea (2). To our knowledge, this is the first report of this virus in Hawaii and the first report of this virus naturally infecting tomato in the United States. References: (1) J. Chen et al. Arch. Virol. 146:757, 2001. (2) M.-K. Kim et al. Plant Pathol. J. 24:152, 2008. (3) J. Th. J. Verhoeven et al. Plant Dis. 86:186, 2002.

The use of cyanobacteria as filler in nitrocellulose capillaries improves ultrastructural preservation of immature barley pollen upon high pressure freezing.

The high pressure freezing (HPF) followed by freeze substitution technique has advantages over chemical fixation in the context of preserving sample ultrastructure. However, when HPF is applied to cultured pollen grains, the large intercellular spaces present lead to a poor level of ultrastructure preservation. We report here that the mixing of cyanobacteria with immature barley pollen grains succeeded in greatly reducing the volume of liquid present between the large pollen grains, and so improved the loading of the sample into a nitrocellulose capillary. The use of yeast or cyanobacteria paste to surround the filled capillaries was beneficial in speeding the transfer of heat during the freezing process. This modification of the HPF method resulted in a greatly improved level of ultrastructure preservation.

The Barts Health NHS Trust COVID-19 cohort: characteristics, outcomes and risk scoring of patients in East London.

BACKGROUND: Barts Health National Health Service Trust (BHNHST) serves a diverse population of 2.5 million people in London, UK. We undertook a health services assessment of factors used to evaluate the risk of severe acute respiratory coronavirus 2 (SARS-CoV-2) infection.METHODS: Patients with confirmed polymerase chain reaction (PCR) test results admitted between 1 March and 1 August 2020 were included, alongwith clinician-diagnosed suspected cases. Prognostic factors from the 4C Mortality score and 4C Deterioration scores were extracted from electronic health records and logistic regression was used to quantify the strength of association with 28-day mortality and clinical deterioration using national death registry linkage.RESULTS: Of 2783 patients, 1621 had a confirmed diagnosis, of whom 61% were male and 54% were from Black and Minority Ethnic groups; 26% died within 28 days of admission. Mortality was strongly associated with older age. The 4C mortality score had good stratification of risk with a calibration slope of 1.14 (95% CI 1.01-1.27). It may have under-estimated mortality risk in those with a high respiratory rate or requiring oxygen.CONCLUSION: Patients in this diverse patient cohort had similar mortality associated with prognostic factors to the 4C score derivation sample, but survival might be poorer in those with respiratory failure.

Spatial and Temporal Incidences of Pineapple mealybug wilt-associated viruses in Pineapple Planting Blocks.

A complex of Pineapple mealybug wilt-associated viruses (PMWaVs) that can infect pineapple (Ananas comosus) is correlated with reduced yields and mealybug wilt of pineapple. The incidences of PMWaV-1 and PMWaV-2 at planting, fruit harvest, the beginning of the ratoon crop, and ratoon fruit harvest were determined for end, side, and central regions of planting blocks in eight commercial fields. Differences in virus incidence for the three regions at ratoon harvest were highly significant (P = 0.0018). Central regions of planting blocks had lower virus incidences at the time of ratoon fruit harvest. Collection of propagation material from the central regions of planting blocks will help to minimize PMWaV incidence in fields planted with this material.

First Report of Iris yellow spot virus in Onion in Hawaii.

Onion (Allium spp.) production in Hawaii is mostly comprised of green onion and the locally prized sweet bulb onions (Allium cepa L.) that include short- and medium-day cultivars. Iris yellow spot virus (IYSV; family Bunyaviridae, genus Tospovirus) is an important constraint to bulb and seed onion production in many onion-growing regions of the continental United States and the world (3). In June 2010, straw-colored, diamond-shaped lesions with occasional green islands were observed on leaves of sweet onion 'Linda Vista' in an insecticide trial on Maui for onion thrips (Thrips tabaci) control. Collapse and lodging occurred when lesions on leaves were severe. Seven bulbs with green leaves exhibiting lesions were collected from this onion field in the Pulehu Region of the lower Kula District on Maui. Leaf samples that included a lesion or were within 1 cm of a lesion were found to be positive in indirect ELISA with IYSV-specific polyclonal antisera (2). A405nm readings after 1 h ranged from 0.263 to 2.067 for positive samples and 0.055 to 0.073 for healthy onion controls. Four samples that were prepared from leaf tissue several centimeters away from a lesion tested negative in ELISA. Such uneven virus distribution in the plants has been previously reported (4). In July 2010, symptomatic sweet onion from a commercial farm in upper Kula, Maui at the 1,060 to 1,220 m (3,500 to 4,000 foot) elevation tested positive for IYSV by ELISA. Green onion samples collected from a commercial farm in Omaopio, Maui, located approximately 0.8 km (0.5 mile) north of Pulehu, have tested negative, suggesting distribution may be limited at this time. RNA was isolated from leaf tissue from the seven 'Linda Vista' sweet onions collected from the Maui insecticide trial. Reverse transcription (RT)-PCR with forward and complementary primers 5'-CTCTTAAACACATTTAACAAGCAC-3' and 5'-TAAAACAAACATTCAAACAA-3' flanking the nucleocapsid (N) gene encoded by the small RNA of IYSV was conducted as previously described (1). Amplicons approximately 1.1 kb long were obtained from all seven symptomatic onion samples but not from healthy samples or water controls. Sequencing of selected amplicons confirmed IYSV infection. Three sequence variants (GenBank Accession Nos. HM776014-HM776016) were identified from two RT-PCR reactions. Phylogenetic analyses of the three sequence variants with the neighbor-joining procedure available through NCBI-BLASTn Tree View showed that the highest nucleotide identities of 97 to 98% were shared with IYSV isolates from New Zealand (EU477515), Nevada (FJ713699), and northern California (FJ713700). Phylogenetic analyses with the N-gene showed the sequences from Hawaii are most closely related to isolates from the western United States, Texas, and New Zealand. To date, to our knowledge, IYSV has not been detected on the islands of Kauai, Oahu, Molokai, or Hawaii. The distribution and economic consequences of this disease to Hawaii's onion production are under investigation. References: (1) H. R. Pappu et al. Arch Virol. 151:1015, 2006. (2) H. R. Pappu et al. Plant Dis. 92:588, 2008. (3) H. R. Pappu et al. Virus Res. 141:219, 2009. (4) T. N. Smith et al. Plant Dis. 90:729, 2006.

First Report of Banana bract mosaic virus in Flowering Ginger in Hawaii.

Flowering ginger, Alpinia purpurata (Vieill.) K. Schum., is a popular cut flower and tropical landscape plant in Hawaii. In Hawaii, ginger flowers, including red and pink cultivars, are grown as field crops with an estimated annual sales of more than $1.6 million (USD) in 2006 (2). In June 2009, a commercial ginger flower grower from Waimanalo, Oahu, Hawaii reported plants with symptoms that included severe mosaic and stripes on the leaves. Flowers showed significant cupping and browning and growers report a reduction in size and shelf life. Symptomatic ginger was also identified at the Lyon Arboretum in Honolulu. Double-stranded RNAs (dsRNAs) were isolated from pooled leaf samples collected from 42 symptomatic plants at two locations on the island of Oahu to further characterize the pathogen associated with the symptomatic ginger. dsRNAs of approximately 0.7, 1.1, 1.8, 2.2, and 12 kb were present in the extractions from symptomatic plants but not in extractions from asymptomatic plants. Partial cloning and sequence analysis of the dsRNA revealed 95 to 98% nucleotide identity to sequences of P1, HC-Pro, C1, 6K2, VpG, NIb, and CP genes and the 3' untranslated region (total approximately 6 kb) of Banana bract mosaic virus (BBrMV). Total RNAs were also isolated from the symptomatic and asymptomatic plants from the Waimanalo farm and Lyon Arboretum. These RNA isolations were used in reverse transcription (RT)-PCR with primers Bract N1: 5'-GGRACATCACCAAATTTRAATGG-3' and Bract NR: 5'-GTGTGCYTCTCTAGCCCTGTT-3' (1), to amplify a 279-bp conserved region of the coat protein of BBrMV. Amplicons of the appropriate size were obtained from 38 of the symptomatic plants, whereas none were obtained from asymptomatic controls. RT-PCR amplicons of arbitrarily selected samples were cloned into pGEM-T Easy, sequenced, and found to be 99% identical to corresponding sequences of BBrMV. Furthermore, using double-antibody sandwich-ELISA assay and antibodies (3), we developed a system that can specifically detect BBrMV in infected flowering ginger plants and not in healthy appearing ginger. To our knowledge, this is the first report of BBrMV in flowering ginger in Hawaii. Further research is needed to determine if BBrMV infecting ginger poses a threat to banana, edible ginger, and other closely related ornamentals in Hawaii. References: (1) M. L. Iskra-Caruana et al. J. Virol. Methods 153:223, 2008. (2) Statistics of Hawaii Agriculture (2006). HDOA/USDA (NASS). 96, 2008. (3) J. E. Thomas et al. Phytopathology 87:698, 1997.

First Report of Tomato yellow leaf curl virus in Hawaii.

Tomato yellow leaf curl disease, caused by the begomovirus Tomato yellow leaf curl virus (TYLCV; family Geminiviridae), is an economically important disease of tomato (Solanum lycopersicum L.) that can be very destructive in tropical and subtropical regions (1). In October 2009, tomato plants showing stunted new growth, interveinal chlorosis, and upward curling of leaf margins were reported by a residential gardener in Wailuku, on the island of Maui. Similar symptoms were observed in approximately 200 tomato plants at a University of Hawaii research farm in Poamoho, on the island of Oahu in November 2009. The similarity between these symptoms and those of tomato yellow leaf curl disease and the presence of whiteflies (Bemisia spp.), the vector of TYLCV, suggested the causal agent was a geminivirus such as TYLCV. Total nucleic acids were extracted from a tomato plant sample from Wailuku and Poamoho and used in a PCR assay with degenerate primers PAR1c715 and PAL1v1978 for geminivirus detection (4). The ~1.5-kbp amplicon expected to be produced from a geminivirus template was generated from the symptomatic tomato plant samples but not from a greenhouse-grown control tomato plant. The amplicons were cloned by the pGEM-T Easy vector (Promega, Madison, WI). Three clones from each sample were sequenced, revealing 97 to 99% nucleotide identity to TYLCV sequences in GenBank and a 98.9% nucleotide identity between the Wailuku (Accession No. GU322424) and Poamoho (Accession No. GU322423) isolates. A multiplex PCR assay for the detection and discrimination between the IL and Mld clades of TYLCV was also performed on these isolates (2). A ~0.8-kbp amplicon was generated from both isolates confirming the presence of TYLCV and their inclusion into the TYLCV-IL clade (2). Seven symptomatic and three asymptomatic tomato plant samples from Poamoho were tested for TYLCV using a squash-blot hybridization assay (3) utilizing a digoxigenin-labeled probe derived from the ~1.5-kbp PCR amplicon. All symptomatic tomato plants and one asymptomatic tomato plant were found to be infected with TYLCV. How the virus entered Hawaii and how long it has been present is unknown. The most plausible route is through infected plant material such as an asymptomatic alternative host rather than viruliferous whiteflies. It appears TYLCV is not a recent introduction into Hawaii since the Wailuku gardener observed similar disease symptoms for a few years before submitting samples for testing. In January 2010, TYLCV was also detected in two commercial tomato farms on Oahu, posing a serious threat to the state's $10 million annual tomato crop. References: (1) H. Czosnek and H. Laterrot. Arch. Virol. 142:1392, 1997. (2) P. Lefeuvre et al. J. Virol. Methods 144:165, 2007. (3) N. Navot et al. Phytopathology 79:562, 1989. (4) M. R. Rojas et al. Plant Dis. 77:340, 1993.

Imperceptible magnetic sensor matrix system integrated with organic driver and amplifier circuits.

Artificial electronic skins (e-skins) comprise an integrated matrix of flexible devices arranged on a soft, reconfigurable surface. These sensors must perceive physical interaction spaces between external objects and robots or humans. Among various types of sensors, flexible magnetic sensors and the matrix configuration are preferable for such position sensing. However, sensor matrices must efficiently map the magnetic field with real-time encoding of the positions and motions of magnetic objects. This paper reports an ultrathin magnetic sensor matrix system comprising a 2 × 4 array of magnetoresistance sensors, a bootstrap organic shift register driving the sensor matrix, and organic signal amplifiers integrated within a single imperceptible platform. The system demonstrates high magnetic sensitivity owing to the use of organic amplifiers. Moreover, the shift register enabled real-time mapping of 2D magnetic field distribution.

Scalable Production of Equine Platelet Lysate for Multipotent Mesenchymal Stromal Cell Culture.

Translation of multipotent mesenchymal stromal cell (MSC)-based therapies is advancing in human and veterinary medicine. One critical issue is the in vitro culture of MSC before clinical use. Using fetal bovine serum (FBS) as supplement to the basal medium is still the gold standard for cultivation of many cell types including equine MSC. Alternatives are being explored, with substantial success using platelet lysate-supplemented media for human MSC. However, progress lags behind in the veterinary field. The aim of this study was to establish a scalable protocol for equine platelet lysate (ePL) production and to test the ePL in equine MSC culture. Whole blood was harvested into blood collection bags from 20 healthy horses. After checking sample materials for pathogen contamination, samples from 19 animals were included. Platelet concentrates were prepared using a buffy coat method. Platelets, platelet-derived growth factor BB, and transforming growth factor ß1 concentrations were increased in the concentrates compared with whole blood or serum (p < 0.05), while white blood cells were reduced (p < 0.05). The concentrates were lysed using freeze/thaw cycles, which eliminated the cells while growth factor concentrations were maintained. Donor age negatively correlated with platelet and growth factor concentrations after processing (p < 0.05). Finally, all lysates were pooled and the ePL was evaluated as culture medium supplement in comparison with FBS, using adipose-derived MSC from four unrelated donor horses. MSC proliferated well in 10% FBS as well as in 10% ePL. However, using 5 or 2.5% ePL entailed highly inconsistent proliferation or loss of proliferation, with significant differences in generation times and confluencies (p < 0.05). MSC expressed the surface antigens CD90, CD44, and CD29, but CD73 and CD105 detection was low in all culture media. Adipogenic and osteogenic differentiation led to similar results in MSC from different culture media. The buffy coat method is useful to produce equine platelet concentrate with increased platelet and reduced white blood cell content in large scales. The ePL obtained supports MSC expansion similar as FBS when used at the same concentration (10%). Further investigations into equine MSC functionality in culture with ePL should follow.

A service evaluation of simultaneous near-patient testing for influenza, respiratory syncytial virus, Clostridium difficile and norovirus in a UK district general hospital.

BACKGROUND: The Cepheid® GeneXpert® (GXP) can simultaneously test for norovirus (NV), Clostridium difficile (CD), influenza A/B (IFA/B) and respiratory syncytial virus (RSV). AIM: To compare centralized multiplex polymerase chain reaction (PCR) testing with localized GXP testing at a district general hospital. METHODS: From December 2017 to December 2018, samples received at Whipps Cross University Hospital (WCUH) were first tested at the local laboratory before transport centrally to the Royal London Hospital (RLH). At the RLH, a non-proprietary multiplex reverse transcriptase (RT) PCR assay was performed, which also tested for gastrointestinal or respiratory pathogens not tested for by the GXP. FINDINGS: A total of 1111 stool and respiratory samples were processed at both sites; 591 were respiratory and 520 were stool samples. Compared to centralized testing, the GXP gave sensitivity, specificity, and NPV all in excess of 97%, with the exception of RSV. The RSV assay had a sensitivity of 66.7% (95% confidence interval (CI) 24.1, 94.0) but an NPV of 99.7% (95% CI 98.6, 99.9). At the RLH, 65 (5.9%) additional respiratory or gastrointestinal viruses were detected, predominantly rhinovirus 35 (3.2%) and adenovirus 11 (1.0%). Compared to centralized testing, the median time saved for local respiratory and gastrointestinal sample testing was 19 h and 46 min and 17 h and 6 min, respectively. CONCLUSIONS: Local GXP testing compared to centralized multiplex PCR testing for IF, NV and CD, demonstrated sensitivities, specificities and NPV between 95% and 100%. Turnaround times were faster, enabling quicker infection prevention and control decision making. In our local setting (WCUH), the GXP demonstrated the potential to reduce NV and IFA/B outbreaks.