Your search keyword '"Kogovšek P"' showing total 3 results

1. Molecular Screening for Cyanobacteria and Their Cyanotoxin Potential in Diverse Habitats.

Author

Jablonska M, Eleršek T, Kogovšek P, Skok S, Oarga-Mulec A, and Mulec J

Subjects

Bacterial Toxins genetics, RNA, Ribosomal, 16S genetics, Slovenia, Biofilms, Caves microbiology, Cyanobacteria Toxins, Water Microbiology, Environmental Monitoring, Italy, Microcystins analysis, Microcystins genetics, Serbia, Croatia, Cyanobacteria genetics, Cyanobacteria isolation & purification, Ecosystem

Abstract

Cyanobacteria are adaptable and dominant organisms that exist in many harsh and extreme environments due to their great ecological tolerance. They produce various secondary metabolites, including cyanotoxins. While cyanobacteria are well studied in surface waters and some aerial habitats, numerous other habitats and niches remain underexplored. We collected 61 samples of: (i) biofilms from springs, (ii) aerial microbial mats from buildings and subaerial mats from caves, and (iii) water from borehole wells, caves, alkaline, saline, sulphidic, thermal, and iron springs, rivers, seas, and melted cave ice from five countries (Croatia, Georgia, Italy, Serbia, and Slovenia). We used (q)PCR to detect cyanobacteria (phycocyanin intergenic spacer-PC-IGS and cyanobacteria-specific 16S rRNA gene) and cyanotoxin genes (microcystins- mcyE , saxitoxins- sxtA , cylindrospermopsins- cyrJ ), as well as amplicon sequencing and morphological observations for taxonomic identification. Cyanobacteria were detected in samples from caves, a saline spring, and an alkaline spring. While mcyE or sxtA genes were not observed in any sample, cyrJ results showed the presence of a potential cylindrospermopsin producer in a biofilm from a sulphidic spring in Slovenia. This study contributes to our understanding of cyanobacteria occurrence in diverse habitats, including rare and extreme ones, and provides relevant methodological considerations for future research in such environments.

Published

2024

2. Potentially Toxic Planktic and Benthic Cyanobacteria in Slovenian Freshwater Bodies: Detection by Quantitative PCR.

Author

Zupančič M, Kogovšek P, Šter T, Remec Rekar Š, Cerasino L, Baebler Š, Krivograd Klemenčič A, and Eleršek T

Subjects

Alkaloids genetics, Biofilms growth & development, Cyanobacteria Toxins, Gene Expression Regulation, Bacterial, Harmful Algal Bloom, Microcystins genetics, Microcystis growth & development, Microcystis isolation & purification, Planktothrix growth & development, Planktothrix isolation & purification, Saxitoxin genetics, Slovenia, Bacterial Toxins genetics, Environmental Monitoring, Fresh Water microbiology, Marine Toxins genetics, Microcystis genetics, Planktothrix genetics, Polymerase Chain Reaction, Water Microbiology

Abstract

Due to increased frequency of cyanobacterial blooms and emerging evidence of cyanotoxicity in biofilm, reliable methods for early cyanotoxin threat detection are of major importance for protection of human, animal and environmental health. To complement the current methods of risk assessment, this study aimed to evaluate selected qPCR assays for detection of potentially toxic cyanobacteria in environmental samples. In the course of one year, 25 plankton and 23 biofilm samples were collected from 15 water bodies in Slovenia. Three different analyses were performed and compared to each other; qPCR targeting mcyE , cyrJ and sxtA genes involved in cyanotoxin production, LC-MS/MS quantifying microcystin, cylindrospermopsin and saxitoxin concentration, and microscopic analyses identifying potentially toxic cyanobacterial taxa. qPCR analyses detected potentially toxic Microcystis in 10 lake plankton samples, and potentially toxic Planktothrix cells in 12 lake plankton and one lake biofilm sample. A positive correlation was observed between numbers of mcyE gene copies and microcystin concentrations. Potential cylindrospermopsin- and saxitoxin-producers were detected in three and seven lake biofilm samples, respectively. The study demonstrated a potential for cyanotoxin production that was left undetected by traditional methods in both plankton and biofilm samples. Thus, the qPCR method could be useful in regular monitoring of water bodies to improve risk assessment and enable timely measures.

Published

2021

3. Loop-mediated isothermal amplification: rapid molecular detection of virulence genes associated with avian pathogenic Escherichia coli in poultry.

Author

Kogovšek P, Ambrožič-Avguštin J, Dovč A, Dreo T, Hristov H, Krapež U, Ravnikar M, Slavec B, Lotrič M, Žel J, and Zorman Rojs O

Subjects

Air Microbiology, Animals, Chickens, Escherichia coli Infections genetics, Nucleic Acid Amplification Techniques methods, Nucleic Acid Amplification Techniques veterinary, Polymerase Chain Reaction methods, Polymerase Chain Reaction veterinary, Slovenia, Turkeys, Escherichia coli genetics, Escherichia coli Infections veterinary, Poultry Diseases microbiology, Virulence genetics

Abstract

Infections with pathogenic Escherichia coli can lead to different animal- and human-associated diseases. E. coli infections are common in intensive poultry farming, and important economic losses can be expected during infections with avian pathogenic E. coli (APEC) strains followed by colibacillosis. Loop-mediated isothermal amplification (LAMP) assays were developed for rapid detection of 3 APEC-associated virulence genes: sitA, traT, and ompT. All 3 LAMP assays are shown to be specific, repeatable, and reproducible. High sensitivities of the assays are shown, where as few as 1,000 bacterial cells/mL can be detected in different matrices. On-site applicability of this LAMP method is demonstrated through testing of different sample types, from animal swabs and tissues, and from environmental samples collected from 6 commercial poultry farms. All 3 virulence genes were detected at high rates (above 85%) in samples from layer and broiler chickens with clinical signs and, interestingly, high prevalence of those genes was detected also in samples collected from clinically healthy broiler flock (above 75%) while lower prevalence was observed in remaining 3 clinically healthy chicken flocks (less than 75%). Importantly, these virulence genes were detected in almost all of the air samples from 11 randomly selected poultry houses, indicating air as an important route of E. coli spread. Three LAMP assays that target APEC-associated virulence genes are shown to be sensitive and robust and are therefore applicable for rapid on-site testing of various sample types, from animal swabs to air. This on-site LAMP testing protocol offers rapid diagnostics, with results obtained in <35 min, and it can be applied to other important microorganisms to allow the required prompt measures to be taken., (© The Author(s) 2018. Published by Oxford University Press on behalf of Poultry Science Association.)

Published

2019