Boelwest7586

Flavescence dorée (FD) and Bois noir (BN) are the principal grapevine yellows diseases in Europe caused by distinct phytoplasmas FD by 16SrV phytoplasmas (FDp), BN by Candidatus Phytoplasma solani. FDp is spread epidemically by the introduced Nearctic Deltocephalinae Scaphoideus titanus and is listed as a quarantine pest in the European Union (Regulation (EU) 2019/2072). Black Alder (Alnus glutinosa) is a common asymptotic host of 16SrV phytoplasmas in Europe and considered the original host of FDp (Malembic-Maher et al. 2020). Palatinate grapevine yellows (PGY) transmitted from alder to grapevine by the Macropsinae Oncopsis alni (Maixner et al. 2000) is not transmissible by S. titanus, unlike isolates transmitted by the autochthonous Deltocephalinae Allygus spp. and the invasive Orientus ishidae (Malembic-Maher et al. 2020). Germany is considered free from FD in grapevine and from its vector. A single case in a nursery in 2014 was eradicated (EPPO 2017). Since S. titanus was detected in 2016 in the neighborit of FD in a vineyard in Germany. The infected vine of cv. Silvaner was 25 years old. While infected planting material is an unlikely source of the infection, a transmission of FDp from alder is highly probable. Finding a single FD-infection after several years of testing implies a low risk originating from the wild compartment, but the approach of the vector S. titanus justifies further monitoring activities. The infected vine was eradicated.Virus diseases are major constraints to the production of cucurbits in the Texas Lower Rio Grande Valley. In September 2020, a ~8.1 ha butternut squash (Cucurbita moschata) field in Hidalgo County, Texas, was observed with virus-like symptoms of vein yellowing, leaf curl, mosaic, and foliar chlorosis. The proportion of plants with virus-like symptoms in this field was estimated at 30% and seven samples (symptomatic = 5; non-symptomatic = 2) were collected randomly for virus diagnosis. Initially, equimolar mixtures of total nucleic acid extracts (Dellaporta et. al. 1983) from two symptomatic samples from this field and extracts from 12 additional symptomatic samples from six other fields across south and central Texas was used to generate one composite sample for diagnosis by high throughput sequencing (HTS). The TruSeq Stranded Total RNA with Ribo-Zero Plant Kit (Illumina) was used to construct cDNA library from the composite sample, which was then sequenced on the Illumina NextSeq 500 platform. More than 26 Texas, naturally occurring in butternut squash. SqVYV was first discovered in Florida (Adkins et al. 2007) and subsequently reported from few other states in the U.S. (Adkins et al. 2013; Egel and Adkins 2007; Batuman et al. Camostat 2015), Puerto Rico (Acevedo et al. 2013), and locations around the world. The finding shows an expansion of the geographical range of SqVYV and adds to the repertoire of cucurbit-infecting viruses in Texas. Further studies are needed to determine the prevalence of SqVYV in Texas cucurbit fields and an assessment of their genetic diversity.Pythium terrestris, Pythium spinosum, and "Candidatus Pythium huanghuaiense" are closely related species and important pathogens of soybean that cause root rot. However, the sequences of commonly-used molecular markers, such as rDNA internal transcribed spacer 2 and cytochrome oxidase 1 gene, are similar among these species, making it difficult to design species-specific primers for loop-mediated isothermal amplification (LAMP) assays. The genome sequences of these species are also currently unavailable. Based on a comparative genomic analysis and de novo RNA-seq transcript assemblies, we identified and cloned the sequences of the M90 gene, a conserved but highly polymorphic single-copy gene encoding a Puf family RNA-binding protein among oomycetes. After primer design and screening, three LAMP assays were developed that specifically amplified the targeted DNA sequences in P. terrestris and P. spinosum at 62°C for 70 min and in "Ca. Pythium huanghuaiense" at 62°C for 60 min. After adding SYBR Green I, a positive yellow-green color (under natural light) or intense green fluorescence (under ultraviolet light) was observed by the naked eye only in the presence of the target species. The minimum concentration of target DNA detected in all three LAMP assays was 100 pg·μL-1. The assays also successfully detected the target Pythium spp. with high accuracy and sensitivity from inoculated soybean seedlings and soils collected from soybean fields. This study provides a method for identification and cloning of candidate detection targets without a reference genome sequence, and identified M90 as a novel specific target for molecular detection of three Pythium species causing soybean root rot.Sweet cherry (Prunus avium) is one the most important fruit crops in Chile. Its production has significantly grown in recent years, reaching 228,448 tons exported in 2019/2020, to 47 countries. One of the main threats for this expanding crop are fungal pathogens, especially those that cause wood diseases. Cherry orchards (n=35) located in the central area of Chile, from Curicó (34°58'58S 71°14.366'W) to Angol (37°47'42.7S 72°42.982'W), were surveyed during 2020. Wood samples were collected (n= 72) from living branches and trunks showing dieback, cankers and dark necrosis, mostly wedge shaped. Small wood sections (0.5-cm) were cut off from the margin of the necrosis and surface disinfected using 0.5% v/v sodium hypochlorite. Sections were plated on a quarter-strength potato dextrose agar amended with 1mg/L tetracycline (PDA-tet). Plates were incubated at 25°C until mycelial development and subsequently the isolates were purified transferring excised fungal tips to PDA. Colonies (n=21) developed white cottofrom all inoculated plants in both pathogenicity tests and no fungus was recovered from controls. To our knowledge this is the first report of Eutypa lata causing wood decay in sweet cherry in Chile. The pathogen was recently reported causing dieback of grapevines in Chile (Lolas et al. 2020). These are significant findings due to the frequent proximity of sweet cherry orchards and vineyards, which facilitates cross infections.