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Isolation and identification of nematode-antagonistic compounds from the fungus Aspergillus candidus (2016)

Shemshura, O. N., Bekmakhanova, N. E., Mazunina, M. N., Meyer, S. L. F., Rice, C. P., Masler, E. P.

Oxford University Press

In: FEMS Microbiology Letters

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Publikationsdatum: 2016-02-20

Beschreibung: Culture medium from an isolate of the fungus Aspergillus candidus was extracted, fractionated and examined to discover compounds antagonistic to plant-parasitic nematodes that are important pathogens of agricultural crops. Column, thin layer and preparative chromatographies and spectral and elemental analyses, were used to isolate and identify two major constituents of an active fraction (Fraction F) obtained from the medium. Compound 1 was identified as 2-hydroxypropane-1, 2, 3-tricarboxylic acid (citric acid). Compound 2 was identified as 3-hydroxy-5-methoxy-3-(methoxycarbonyl)-5-oxopentanoic acid, an isomer of 1, 2-dimethyl citrate. Compound 1 and a citric acid standard, each tested at 50 mg mL –1 in water, decreased hatch from eggs of the plant-parasitic nematode Meloidogyne incognita by more than 94%, and completely immobilized second-stage juveniles after 4–6 days exposure. Fraction F and Compounds 1 and 2 decreased the mobility of adults of the plant-parasitic nematode Ditylenchus destructor in vitro . Fraction F (25 mg mL –1 ) inhibited mobility 〉99% at 72 hrs. Compounds 1 and 2 (50 mg mL –1 ) each inhibited mobility more than 25% at 24 hr and more than 50% at 72 hr. This is the first assignment of nematode-antagonistic properties to specifically identified A. candidus metabolites.

Schlagwort(e): Pathogens & Pathogenicity

Print ISSN: 0378-1097

Digitale ISSN: 1574-6968

Thema: Biologie

Publiziert von Oxford University Press

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Efficient global wave propagation adapted to 3-D structural complexity: a pseudospectral/spectral-element approach (2016)

Leng, K., Nissen-Meyer, T., van Driel, M.

Oxford University Press

In: Geophysical Journal International

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Publikationsdatum: 2016-10-29

Beschreibung: We present a new, computationally efficient numerical method to simulate global seismic wave propagation in realistic 3-D Earth models. We characterize the azimuthal dependence of 3-D wavefields in terms of Fourier series, such that the 3-D equations of motion reduce to an algebraic system of coupled 2-D meridian equations, which is then solved by a 2-D spectral element method (SEM). Computational efficiency of such a hybrid method stems from lateral smoothness of 3-D Earth models and axial singularity of seismic point sources, which jointly confine the Fourier modes of wavefields to a few lower orders. We show novel benchmarks for global wave solutions in 3-D structures between our method and an independent, fully discretized 3-D SEM with remarkable agreement. Performance comparisons are carried out on three state-of-the-art tomography models, with seismic period ranging from 34 s down to 11 s. It turns out that our method has run up to two orders of magnitude faster than the 3-D SEM, featured by a computational advantage expanding with seismic frequency.

Schlagwort(e): Geodynamics and Tectonics

Print ISSN: 0956-540X

Digitale ISSN: 1365-246X

Thema: Geologie und Paläontologie

Publiziert von Oxford University Press im Namen von The Deutsche Geophysikalische Gesellschaft (DGG) and the Royal Astronomical Society (RAS).

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