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Main Echinococcus Hydatid Cyst with the Womb: An Unusual Place.
Previous studies have demonstrated positive associations between identity disturbances and suicidality in adolescents; however, mechanisms underlying these relationships are not well understood. The authors propose that borderline features and various internalizing disorders may mediate these relations. The aim of this study was to test a multiple mediation model of the associations between these constructs using structural equation modeling. Ninety-six inpatient adolescents aged 12-17 years completed the Assessment of Identity Development in Adolescents, the Childhood Interview for DSM-IV Borderline Personality Disorder, the Youth Self-Report, and the Columbia-Suicide Severity Rating Scale. Findings partly confirmed the theoretical model. Borderline features mediated the positive effect of identity disturbances on suicidal ideation severity. Mediations of withdrawn/depression and anxiety/depression on the effect of identity disruption on suicidal ideation intensity were demonstrated. Identity disruptions and borderline and depressive symptoms could be possible targets for interventions for youth experiencing suicidal ideation.Meloidogyne chitwoodi is one of the most devastating pests of potato in the U.S. Pacific Northwest (PNW). Nematode-infected tubers develop external as well as internal defects, making the potatoes unmarketable, and resulting in economic losses. Draft genome assemblies of three M. chitwoodi genotypes, Mc1, Mc2 and Mc1Roza, were generated using Illumina and PacBio Sequel RS II sequencing. The final assemblies consist of 30, 39 and 38 polished contigs for Mc1, Mc2 and Mc1Roza, respectively, with average N50 of 2.37 Mb and average assembled genome size of ~47.41 Mb. An average of 10,508 genes were annotated for each genome. BUSCO analysis indicated that 69.80% of the BUSCOs were complete whereas 68.80%, 0.93% and 12.67% were single copy, duplicated and fragmented, respectively. These highly contiguous genomes will enrich resources to study potato-nematode interactions and enhance breeding efforts to develop nematode resistant potato varieties for PNW.Species of Alternaria (phylum Ascomycota, family Pleosporaceae) are known as serious plant pathogens, causing major losses on a wide range of crops. Alternaria atra (Preuss) Woudenb. & Crous (previously known as Ulocladium atrum) can grow as a saprophyte on many hosts and causes Ulocladium blight on potato. It has been reported that it can also be used as a biocontrol agent against a.o. Botrytis cinerea Here we present a scaffold-level reference genome assembly for A. atra. The assembly contains 43 scaffolds with a total length of 39.62 Mbp, with scaffold N50 of 3,893,166 bp , L50 of 4 and the longest 10 scaffolds containing 89.9% of the assembled data. RNA Seq-guided, gene prediction using BRAKER resulted in 12,173 protein-coding genes with their functional annotation. This first high-quality reference genome assembly and annotation for A. Atra can be used as a resource for studying evolution in the highly complicated Alternaria genus and might help understand the mechanisms defining its role as pathogen or biocontrol agent.Several ATP-Binding Cassette (ABC) transporters involved in the arbuscular mycorrhizal symbiosis and nodulation have been identified. We describe three previously-unreported ABC subfamily-B transporters, named ABCB for Mycorrhization and Nodulation (AMN1, AMN2, and AMN3), that are expressed early during infection by rhizobia and arbuscular mycorrhizal fungi. These ABCB transporters are strongly expressed in symbiotically infected tissues, including in root hair cells with rhizobial infection threads and arbusculated cells. During nodulation, the expression of these genes is highly induced by rhizobia and purified Nod factors, and was dependent on DMI3, but is not dependent on other known major regulators of infection such as NIN, NSP1, or NSP2. During mycorrhization their expression is dependent on DMI3 and RAM1, but not on NSP1 and NSP2. Therefore, they may be commonly regulated through a distinct branch of the common symbiotic pathway. Mutants with exonic Tnt1-transposon insertions were isolated for all three genes. None of the single or double mutants showed any differences in colonization by either rhizobia or mycorrhizal fungi, but the triple amn1 amn2 amn3 mutant showed an increase in nodule number. Further studies are needed to identify potential substrates of these transporters and understand their roles in these beneficial symbioses.Aquilaria sinensis (Lour.) Spreng, also known as eaglewood, belongs to the Thymelaeaceae family and has a considerably high medicinal value. It has been enlisted as the class II national key protective plant. In June 2019, about 15 percent of A. sinensis treelets in a forest area of China's Hainan province were observed to have the anthracnose symptoms. The diseased spots on leaves of A. sinensis treelets were usually round or irregular with pale yellow edges. The color of the center of the lesion was firstly light brown and then black or yellowish-brown. Small pieces of tissue from the edge of the leaf spots were surface sterilized in 75% alcohol for the 60s, washed twice with sterile distilled water, and then cultivated at 28 °C in darkness on potato dextrose agar (PDA) medium. One fungus was systematically isolated to get pure cultures. The culturing of the three isolates was carried out in PDA media at 28 °C for a week. The average diameter of the collateral colony was 6.80 ±0.60 cm. Initially, the fungalose-like symptoms were observed 6 days postinoculation. The control plant tissues remained healthy. Follow up reisolation of C. enigma culture was obtained in PDA agar plates from leaf infected lesions, and the morphological features were found to be consistent with that of CX-0301 isolate, satisfying Koch's postulates. Based on the characterized information, it is the first report of Colletotrichum aenigma responsible for causing leaf spots on Aquilaria sinensis in China. Thereby, this provides a theoretical reference for the research and control of anthracnose on A. sinensis.Snake gourd (Trichosanthes cucumerina L.), an annual climbing plant belonging to the family of Cucurbitaceae, is native to Southeast Asia countries, e.g., India, Pakistan, Malaysia, China, and Indonesia. RTA-408 cost It is commonly consumed as a vegetable and also used as a traditional herbal medicine due to the antidiabetic, anti-inflammatory, antibacterial, hepatoprotective, and cytotoxic activities (Devi 2017). In September 2020, phytoplasma-induced disease symptoms such as little leaf, yellowing, phyllody, virescence, and witches' broom were observed on snake gourd in Yunlin County, Taiwan. The cross-sectional examination of the symptomatic plant by transmission electron microscopy showed typical phytoplasma-like pleomorphic bodies with spherical, oval and tubular shapes in sieve elements. Further examination by nested PCR revealed that a 1.2 kb DNA fragment for 16S rRNA gene was only amplified from symptomatic leaf of snake gourd using the phytoplasma universal primer pairs P1/P7 followed by R16F2n/R16R2. BLAST and iogen identified in snake gourd is identical with that of PnWB phytoplasma. In Taiwan, species of family Cucurbitaceae such as loofah, bitter gourd, and pumpkin are commonly infected by 16SrVIII phytoplasma (Davis 2017). In this study, we report for the first time that snake gourd, a species of family Cucurbitaceae, was infected by 16SrII-V PnWB phytoplasma in Taiwan.Sheath blight (ShB, caused by Rhizoctonia solani AG1-1A) and narrow brown leaf spot (NBLS, Cercospora janseana) are among the most important diseases affecting rice production in Texas and other southern United States. Because of high yielding potential, hybrid rice acreage has continually increased. Understanding the relative levels of resistance to ShB and NBLS in hybrids over inbreds is important to effective disease management but remain largely unknown. Comparative performance of hybrid rice and inbred rice was evaluated with 173 hybrid and 155 inbred genotypes (cultivars and elite breeding lines) over five crop seasons (2016 to 2020) and two locations in Texas. The results show that genotype, cultivar type (hybrid or inbred), location, and their interactions had a significant effect on the severity of ShB and NBLS. ShB severities in hybrid genotypes were significantly lower than in inbred genotypes, with an average of 27% reduction in disease severity over the 5 year x 2 location evaluation. Most (53%) of the hybrid genotypes were rated moderately resistant (MR), whereas almost all (97%) of the inbred genotypes ranged from very susceptible (VS) to moderately susceptible (MS). Similarly, NBLS severities in hybrid genotypes are significantly lower than those in inbred genotypes. All but four hybrid genotypes exhibit immune reaction to NBLS. In contrast, 77% of the inbred genotypes exhibit the NBLS symptoms, with disease resistance reactions ranging from susceptible (S) to resistant (R). The results demonstrate that hybrid rice is generally less susceptible to sheath blight and has a higher level of resistance against NBLS compared to inbred rice.Fusarium crown rot, caused by several species within the genus, is a major constraint that results in significant losses in wheat production worldwide. In June 2019, diseased wheat plants with typical symptoms of crown rot, including discoloration on the first two or three internodes of the stem just above the soil line and stunted, dry rotted, and discolored roots were collected in several bread wheat fields during the maturity stage in Almaty, East Kazakhstan, and Karaganda Regions of Kazakhstan. For each field, approximately twenty tillers were randomly sampled. Symptomatic tissues were surface sterilized in 1% NaClO for 2 min, rinsed with sterile distilled water three times, air-dried in a laminar flow hood, and then transferred to Petri dishes containing one-fifth strength potato dextrose agar (PDA). After incubating in the dark at 23°C for 5 days, 79 single-spore isolates showing cultural and microscopic characteristics of Fusarium were obtained on PDA and Spezieller-Nährstoffarmer agar (SNA). Colonies ity of the disease for each isolate was between 2.1 and 2.7 according to the scale of 1 to 5 described by Gebremariam et al. (2015). The pathogen was reisolated from crowns of diseased plants, but not from asymptomatic control tissues, and identified morphologically based on the methods described above, fulfilling Koch's postulates. Although several morphological features are shared by F. oxysporum and F. redolens, Baayen et al. (2001) showed that these species could be easily distinguished using molecular data. The pathogen was previously reported as F. redolens associated with crown rot of wheat in Turkey (Gebremariam et al. 2015) and Saskatchewan, Canada (Taheri et al. 2011). The presence of F. redolens causing crown rot is confirmed in the six wheat fields surveyed in Kazakhstan, for the first time. This pathogen may pose a risk for wheat production, and further studies needed to determine the impact on the crop in Kazakhstan.Chile is the main exporter of sweet cherries (Prunus avium), with a total of 228.6 thousand tons exported in the 2019-20 season, and a production from the Coquimbo to the Aysén region (http//www.iqonsulting.com/yb/). In January 2019, cherry trees from a commercial orchard located near Osorno city (40°37'S, 72°54'W), Region de Los Lagos, Chile, showed symptoms such as the presence of wood cankers, necrotic spots in leaves, and premature defoliation, with a mean disease incidence near 40%. Symptomatic leaves with necrotic spots were collected for analysis, from which all the necrotic spots were extracted by incision with a sterile scalpel, macerated in 30 mL of AFT buffer and subsequently, 100 µL of the suspension was plated on King's B (KB) agar and incubated for 48 to 72 h at 27°C, obtaining a total of two bacterial colonies identified as 7684.1 and 7684.2. Afterward, each colony was stroked in a new KB agar plate, incubated for 16 h at 27°C, and the obtained biomass was used in subsequent experiments. In KB agar, both colonies exhibited fluorescence under UV light and, according to the LOPAT method (Lelliott et al.
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