Inhibition of net nitrification activity in a Mediterranean woodland: possible role of chemicals produced by Arbutus unedo

Nitrification is a key biological process for the control of soil NO₃ ^? availability and N losses from terrestrial ecosystems. The study investigates the causes for the absence of net nitrification activity in the soil of a Mediterranean monospecific woodland of Arbutus unedo, focusing in particular on the possible role of chemicals produced by this plant. The mineral N pool, net rates of mineralization and nitrification were measured in the soil top 10 cm over 18 months. Raw extracts of leaves and roots of Arbutus unedo and soil underneath Arbutus plant canopy were purified using chromatographic techniques and the structure of chemicals was defined using spectroscopic and spectrometric methods. Leaf extracts (raw, aqueous and organic fractions) were tested for their toxicity on net nitrification, using a test soil. Field and laboratory incubations showed soil NO₃ ^? concentration below the detection limit over the whole study period, despite the significant NH₄ ⁺ availability. Toxicity tests indicated that more than 400 μg of extract g^?1 dry soil were needed to have more than 50% reduction of net NO₃ ^? production. Gallocatechin and catechin were among the most abundant chemicals in the extracts of leaves, roots and soil. Their soil concentration was significantly higher than the annual calculated input via leaf litter, and it was in the range of toxic concentrations, as deduced from the dose-response curve of the toxicity test. Data support the hypothesis that plant produced chemicals might be involved in the limited net nitrate production in this Mediterranean woodland.

     

A MELAS phenotype and a paternal inherited inversion of chromosome 10 in a female patient

A MELAS phenotype and a paternal inherited inversion of chromosome 10 in a female patient: We describe a patient suffering from encephalomyopathy with overlapping symptoms, including MELAS and Kearn-Sayre syndrome features. Mutations in tRNA LEU (UUR) were not found in mtDNA of blood cells, suggesting a different genetic defect. Cytogenetic studies revealed a paternal inherited pericentric inversion of chromosome 10 (p13;q22) pat. Although the presence of the same inversion in the father and in the apparently asymptomatic sister does rather suggest that the concurrence of the mitochondrial disease in the patient was due to chance, some alternative explanations to associate both events might be proposed.     

The degradation of two fluoroquinolone based antimicrobials by SilA,an alkaline laccase from <Emphasis Type="Italic">Streptomyces ipomoeae</Emphasis>

The presence of fluoroquinolone based antimicrobials in natural waters represents a significant emerging environmental problem. In this study the suitability of a novel alkaline bacterial laccase, SilA, from Streptomyces ipomoeae to degrade two key antimicrobials, Ciprofloxacin and Norfloxacin under alkaline conditions in the presence of natural mediators was assessed. Results showed that only the selected SilA-acetosyringone system was able to degrade more than 90 % of both fluoroquinolones. HPLC analysis of the degradation products obtained after enzyme treatment confirmed the disappearance of the antimicrobials and the mediator after 24 h. The time course of the degradation showed that during the first 4 h a 75 % of degradation of fluoroquinolones was detected while the mediator remained stable. A concomitant appearance of new chromatographic peaks derived from the fluoroquinolones and/or the mediator was detected. Moreover, toxicity assays demonstrated that the SilA-acetosyringone system was able to reduce the toxicity of Ciprofloxacin and Norfloxacin by 90 and 70 %, respectively. In conclusion, these findings support the suitability of a low cost and environmentally friendly strategy based on the SilA-acetosyringone system for a primary treatment of contaminated alkaline wastewaters with this type of emerging pollutants.     

Structures of bioactive carexanes from the roots of Carex distachya Desf

Four metabolites, named carexanes I-L, have been isolated from the roots of Carex distachya Desf, an herbaceous plant living in the Mediterranean maquis, together with three known compounds, already isolated from the aerial part of the plant. All the compounds have been characterized on the basis of their spectroscopic properties. Carexane I derived from the lose of a proton from the C-18 carbon of an intermediate isopropyl cation. Its stereostructure has been elucidated by Mosher's method, NOESY/ROESY experiments and computational calculations. The bioactivity on seed germination and root/shoot growth of Lactuca sativa L. of all the isolated compounds is also reported.