29 research outputs found

    An Arabidopsis thaliana leucine-rich repeat protein harbors an adenylyl cyclase catalytic center and affects responses to pathogens

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    Adenylyl cyclases (ACs) catalyze the formation of the second messenger cAMP from ATP. Here we report the characterization of an Arabidopsis thaliana leucine-rich repeat (LRR) protein (At3g14460; AtLRRAC1) as an adenylyl cyclase. Using an AC-specific search motif supported by computational assessments of protein models we identify an AC catalytic center within the N-terminus and demonstrate that AtLRRAC1 can generate cAMP in vitro. Knock-out mutants of AtLRRAC1 have compromised immune responses to the biotrophic fungus Golovinomyces orontii and the hemibiotrophic bacteria Pseudomonas syringae, but not against the necrotrophic fungus Botrytis cinerea. These findings are consistent with a role of cAMP-dependent pathways in the defense against biotrophic and hemibiotrophic plant pathogens

    Zinc phosphate protects tomato plants against Pseudomonas syringae pv. tomato

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    AbstractThe purpose of this study was to determine whether zinc phosphate treatments of tomato plants (Solanum lycopersicum L.) can attenuate bacterial speck disease severity through reduction of Pseudomonas syringae pv. tomato (Pst) growth in planta and induce morphological and biochemical plant defence responses. Tomato plants were treated with 10 ppm (25.90 µM) zinc phosphate and then spray inoculated with strain DAPP-PG 215, race 0 of Pst. Disease symptoms were recorded as chlorosis and/or necrosis per leaf (%) and as numbers of necrotic spots. Soil treatments with zinc phosphate protected susceptible tomato plants against Pst, with reductions in both disease severity and pathogen growth in planta. The reduction of Pst growth in planta combined with significantly higher zinc levels in zinc-phosphate-treated plants indicated direct antimicrobial toxicity of this microelement, as also confirmed by in vitro assays. Morphological (i.e. callose apposition) and biochemical (i.e., expression of salicylic-acid-dependent pathogenesis-related protein PR1b1 gene) defence responses were induced by the zinc phosphate treatment, as demonstrated by histochemical and qPCR analyses, respectively. In conclusion, soil treatments with zinc phosphate can protect tomato plants against Pst attacks through direct antimicrobial activity and induction of morphological and biochemical plant defence responses

    Perceived ethnic discrimination as a determinant of migrants’ health in Italy

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    Discrimination has a negative impact on immigrants’ health and contributes to the (re)production of health inequalities. The aim of this study was to investigate the effect of perceived discrimination on physical and mental health outcomes of migrants living in Italy. Data were taken from the Social Condition and Integration of Foreign Citizens (SCIF) survey, conducted in 2011–2012 in Italy, namely the first national survey that investigates social condition and integration of foreign citizens. In order to assess the association between perceived discrimination and both physical and mental health of immigrants, two binomial logistic regression models were fitted. The main finding of our study is that, also in Italy, perceived ethnic discrimination is associated with worse health outcomes, therefore, policymakers should develop and implement public interventions aimed at reducing health inequalities with the rest of the population and at promoting migrants’ social integration

    Phytopathological Threats Associated with Quinoa (Chenopodium quinoa Willd.) Cultivation and Seed Production in an Area of Central Italy

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    In 2017, in a new Chenopodium quinoa cultivation area (Central Italy), emergence failures of the Titicaca, Rio Bamba, and Real varieties, whose seeds were obtained the previous year (2016) in the same location, were observed. Moreover, leaf disease symptoms on the Regalona variety, whose seeds came from Chile, were detected. Visual and microscopic analyses showed the presence of browning/necrotic symptoms on the seeds of the three varieties whose emergence in the field had failed. In addition, their in vitro germination rates were strongly compromised. Fusarium spp. was isolated with high incidence from Titicaca, Rio Bamba, and Real seeds. Among the detected Fusarium species, in the phylogenetic analysis, the dominant one clustered in the sub-clade Equiseti of the Fusarium incarnatum-equiseti (FIESC) species complex. Instead, the pathogen associated with Regalona leaf symptoms was identified, by morphological and molecular features, as Peronospora variabilis, the causal agents of downy mildew. This is the first report of both P. variabilis and F. equiseti on C. quinoa in Italy. Species-specific primers also detected P. variabilis in Regalona seeds. These results underline the importance of pathogen monitoring in new quinoa distribution areas, as well as of healthy seed production and import for successful cultivation

    Sodium Selenate: An Environmental-Friendly Means to Control Tomato Bacterial Speck Disease

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    Selenium (Se) is a micronutrient which plays a beneficial role in plants. Its adsorption at low doses can stimulate plant growth and enhance the plant’s capacity to respond to abiotic stresses, such as salinity, drought, cold and hot temperature, probably due to its antioxidant properties. Here, the effect of selenium supplied in soil-drench treatments as sodium selenate (Na2SeO4) at the dose of 4 mg L−1 (21.17 µM) per plant was studied on tomato (Solanum lycopersicum L.; cv. Rio Grande) against Pseudomonas syringae pv. tomato (Pst), the causal agent of tomato bacterial speck. Sodium selenate treated tomato plants challenged with Pst showed a reduction in disease severity expressed as percentage of diseased area and number of lesions per leaf. Furthermore, Pst bacterial cells were unable to proliferate in treated tomato plants. The effect of sodium selenate against Pst was also assessed in vitro, demonstrating that the growth of the bacterium was affected in a dose-dependent manner (EC50 = 42 ppm). It is notable that in tomato plants treated with sodium selenate at the above reported dose, a marked callose deposition was observed as well as the expression of the salicylic-acid-responsive tomato ‘pathogenesis-related protein 1b1’ (PR1b1) but not of the jasmonate-mediated ‘proteinase inhibitor 2’ (PIN2) genes. Induced defence responses and direct antimicrobial activity protect treated tomato plants against Pst attacks, suggesting the potential of sodium selanate as an environmentally friendly and effective bacterial control means. Moreover, the increased Se content in treated tomatoes offers an effective approach to reduce Se deficiency problems in human diets

    Sodium Selenate: An Environmental-Friendly Means to Control Tomato Bacterial Speck Disease

    No full text
    Selenium (Se) is a micronutrient which plays a beneficial role in plants. Its adsorption at low doses can stimulate plant growth and enhance the plant’s capacity to respond to abiotic stresses, such as salinity, drought, cold and hot temperature, probably due to its antioxidant properties. Here, the effect of selenium supplied in soil-drench treatments as sodium selenate (Na2SeO4) at the dose of 4 mg L−1 (21.17 µM) per plant was studied on tomato (Solanum lycopersicum L.; cv. Rio Grande) against Pseudomonas syringae pv. tomato (Pst), the causal agent of tomato bacterial speck. Sodium selenate treated tomato plants challenged with Pst showed a reduction in disease severity expressed as percentage of diseased area and number of lesions per leaf. Furthermore, Pst bacterial cells were unable to proliferate in treated tomato plants. The effect of sodium selenate against Pst was also assessed in vitro, demonstrating that the growth of the bacterium was affected in a dose-dependent manner (EC50 = 42 ppm). It is notable that in tomato plants treated with sodium selenate at the above reported dose, a marked callose deposition was observed as well as the expression of the salicylic-acid-responsive tomato ‘pathogenesis-related protein 1b1’ (PR1b1) but not of the jasmonate-mediated ‘proteinase inhibitor 2’ (PIN2) genes. Induced defence responses and direct antimicrobial activity protect treated tomato plants against Pst attacks, suggesting the potential of sodium selanate as an environmentally friendly and effective bacterial control means. Moreover, the increased Se content in treated tomatoes offers an effective approach to reduce Se deficiency problems in human diets

    Chronic renal failure of unknown origin is caused by HNF1B mutations in 9% of adult patients: a single centre cohort analysis.

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    Abstract BACKGROUND: HNF1B gene mutations might be an underdiagnosed cause of nephropathy in adult patients mainly because of their pleomorphic clinical presentations. As most studies are based on paediatric populations, it is difficult to assess the likelihood of finding HNF1B mutations in adult patients and consequently define clinical settings in which genetic analysis is indicated. The aim of this study was the search for mutations in the HNF1B gene in a cohort of unrelated adult patients with nephropathy of unknown aetiology. METHODS: Patients were tested for the HNF1B gene if they had chronic kidney disease of unknown origin and renal structure abnormalities (RSA) or a positive family history of nephropathy. The HNF1B coding sequence and intron-exon boundaries were analyzed by direct sequencing. The search for gene deletions was performed by Multiple Ligation Probe Analysis (MLPA). RESULTS: Heterozygous mutations were identified in 6 out of 67 screened patients (9.0%) and included two whole gene deletions, one nonsense (p.Gln136Stop), two missense (p.Gly76Cys and p.Ala314Thr) mutations and a frameshift microdeletion (c.384_390 delCATGCAG), the latter two (c.384_390 del and p.Ala314Thr) not ever being reported to date. Mean age of the mutated patients at screening was 48.5 years with a M/F ratio of 2/4. The clinical manifestations of affected patients were extremely pleomorphic, including several urological and extra-renal manifestations. CONCLUSIONS: Mutations of HNF1B could explain chronic kidney disease in up to 9% of adult patients with a nephropathy of unknown aetiology and RSA: therefore an HNF1B mutation analysis should be considered in this group of patients
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