J Grabarkiewicz-Szczesna scite author profile

J Grabarkiewicz-Szczesna

5Publications

95Citation Statements Received

56Citation Statements Given

How they've been cited

167

How they cite others

Affiliations

University of Agriculture in Krakow

Publications

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Toxigenic profile ofAlternaria alternataandAlternaria radicinaoccurring on umbelliferous plants

Solfrizzo

Girolamo

Vitti

et al. 2005

Food Additives and Contaminants

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Alternaria alternata and Alternaria radicina are fungal species that occur in several food crops and may produce mycotoxins and phytotoxins. The toxigenic profile of A. alternata and A. radicina isolated from carrot and other umbelliferous plants was determined by growing the fungus on rice and carrot discs. Most of the tested isolates of A. alternata produced the mycotoxins tenuazonic acid, alternariol, alternariol methyl ether and altertoxin-I on rice. Only alternariol and alternariol methyl ether were produced on carrot discs. When cultured on rice, none of the isolates of A. alternata from umbelliferous plants produced AAL toxins and fumonisins. AAL toxins, but not fumonisins, were instead produced by A. alternata f. sp. lycopersici isolate NRRL 18822 isolated from tomato. A. radicina produced the phytotoxic compounds radicinin, epi-radicinol and radicinol on carrot discs, whereas it produced radicinin and radicinol on rice. Although A. alternata has been frequently found in organic carrots, none of the above mycotoxins was detected in carrot roots or in carrot commercial products. The reduction of alternariol and alternariol methyl ether during carrot juice processing at laboratory scale was estimated to be >98%. Based on these findings and previous reports, it can be concluded that Alternaria mycotoxins in carrots do not represent a hazard for consumers.

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Volatile Compounds ofAspergillusStrains with Different Abilities To Produce Ochratoxin A

Jeleń¹,

Grabarkiewicz-Szczesna²

2005

J. Agric. Food Chem.

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Volatile compounds emitted by Aspergillus strains having different abilities to produce ochratoxin A were investigated. Thirteen strains of Aspergillus ochraceus, three belonging to the A. ochraceus group, and eight other species of Aspergillus were examined for their abilities to produce volatile compounds and ochratoxin A on a wheat grain medium. The profiles of volatile compounds, analyzed using SPME, in all A. ochraceus strains, regardless of their toxeginicity, were similar and comprised mainly of 1-octen-3-ol, 3-octanone, 3-octanol, 3-methyl-1-butanol, 1-octene, and limonene. The prevailing compound was always 1-octen-3-ol. Mellein, which forms part of the ochratoxin A molecule, was found in both toxigenic and nontoxigenic strains. Volatile compounds produced by other Aspergillus strains were similar to those of A. ochraceus. Incubation temperatures (20, 24, and 27 degrees C) and water content in the medium (20, 30, and 40%) influenced both volatile compounds formation and ochratoxin A biosynthesis efficiency, although conditions providing the maximum amount of volatiles were different from those providing the maximum amount of ochratoxin A. The pattern of volatiles produced by toxigenic A. ochraceus strains does not facilitate their differentiation from nontoxigenic strains.

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Detection of T-2 Toxin in Different Cereals by Flow-Through Enzyme Immunoassay with a Simultaneous Internal Reference

Sibanda

Saeger

Peteghem

et al. 2000

J. Agric. Food Chem.

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In most previously described membrane-based immunoassays a separate negative control assay is always carried out to evaluate the performance of the assay. To overcome this problem, a membrane-based flow-through enzyme immunoassay with an internal control has been developed for the detection of T-2 toxin in cereals (patent pending). An Immunodyne ABC membrane was coated with 2 microL of goat anti-horseradish peroxidase (HRP) (internal control spot) (1:1000) and 2 microL of rabbit anti-mouse (test spot) (undiluted) immunoglobulins, and the free binding sites were blocked. In addition to the antibody-coated Immunodyne ABC membrane, the assay also comprises a plastic snap-fit device, absorbent cotton wool, mouse anti-T-2 monoclonal antibodies (Mab), and T-2-HRP conjugate. The color intensity (Delta) of the internal control and that of the negative sample showed no difference (P > 0.05), whereas there was a significant difference between the internal control and positive samples (P < 0.05). The minimum detectable limit that could be visually detected with confidence was 50 ng of T-2 per gram of cereal sample.

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Production of toxins by Alternaria alternata and A. radicina and their effects on germination of carrot seeds

Tylkowska¹,

Grabarkiewicz-Szczesna²,

Iwanowska³

2003

Seed Sci. Technol.

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Natural occurrence ofAlternaria mycotoxins in the grain and chaff of cereals

Grabarkiewicz-Szczesna¹,

Chełkowski²,

Zajkowski³

1989

Mycotox Res

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Samples of wheat and rye heads with evident black discoloration were collected in 1986 and 1987. Four fungal genera colonized such heads:Alternaria, Cladosporium, Drechslera, andEpicoccum. In chaff of wheat (19%) and rye (10%) samples alternariol was present in amounts up to 1.8mg/kg, and alternariol methyl ether up to 0.51 mg/kg. In 1 out of 21 wheat samples alternariol was also present in kernels (0.59mg/kg).

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