E. Modzelewska scite author profile

Infections caused by Toxoplasma gondii are prevalent in humans and animals throughout the world. So far, there is no sufficient information concerning T. gondii oocysts prevalence in the environment, especially in soil. Therefore, the aim of this study was to estimate occurrence of T. gondii oocysts in soil and determine the genotype of detected parasites. A total of 101 soil samples were taken from different sites (sand-pits, "farming ground", areas around rubbish dumps) located in the Tri-City (Poland). Oocysts were recovered using the flotation method. Then, PCR reactions targeting the B1 gene were performed for specific T. gondii detection. The positive samples were further confirmed by PCR amplification of a repetitive element (REP) sequence [GenBank accession number AF146527]. Toxoplasma DNA was found in 18 samples. Among them, seven samples were successfully genotyped at the SAG2 locus. They were classified as SAG2 type I (5 samples) and SAG2 type II (2 samples). This is one of the first investigations describing T. gondii oocyst detection in environmental soil samples with rapid molecular detection methods and genotyping. The results of our findings showed that soil contaminated with T. gondii oocysts may play a role in the epidemiology of human toxoplasmosis in Poland.

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Natural isolates ofBacillus thuringiensisdisplay genetic and psychrotrophic properties characteristic ofBacillus weihenstephanensis

Bartoszewicz

Bideshi

Kraszewska

et al. 2009

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Aim: To determine the potential of Bacillus thuringiensis, known primarily for its entomopathogenicity, to be a psychrotolerant contaminant of stored products. Methods and Results: We determined the genetic properties and diversity of cold‐adapted isolates of B. thuringiensis based on (i) the presence of cspA, a genetic determinant that confers psychrotolerance in Bacillus weihenstephanensis, (ii) 16S rRNA genes, and (iii) pulse‐field gel electrophoretic (PFGE) genome profiles. We assessed the pathogenic potential of these isolates based on whether they harboured various combinations of known toxigenic‐associated determinants (nheA, hblA, cytK). Of 36 nonclonal B. thuringiensis cultured from soil and milk, 21 harboured cspA, and of these, 16 (76%) were psychrotolerant and possessed genetic signatures typical of psychrotrophic Bacillus species. The majority of psychrotolerant isolates contained various combinations of nheA, hblA, and cytK. Conclusion: Our results show that natural isolates of psychrotolerant B. thuringiensis occur in soil and milk, and suggest that psychrotolerance is determined by cspA. Significance and Impact of the study: The presence of cspA in combination with nheA, hblA, and cytK could be of concern if commercial products are contaminated with strains that harbour these determinants.

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E. Modzelewska

Detection of Toxoplasma gondii oocysts in environmental soil samples using molecular methods

Natural isolates ofBacillus thuringiensisdisplay genetic and psychrotrophic properties characteristic ofBacillus weihenstephanensis

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