Martina Blažková

Strip-based immunoassay for rapid detection of thiabendazole.

There is increased interest in the investigation and implementation of rapid screening methods for detection of pesticide residues. This study reports development of an immunostrip test for thiabendazole detection based on indirect competitive principle using carbon particles as a label. Nitrocellulose membrane strip was coated with a thiabendazole-protein conjugate in the defined test zone. In flow of an antibody-carbon complex and thiabendazole along the strip, the intensity of black colour formed in the test line reflected the thiabendazole concentration and semi-quantitative estimation could be carried out visually. The optimized test was accomplished within 10 min and the visual detection limit was achieved 0.25 ng mL(-1) of standard sample. Moreover, immunostrip was evaluated quantitatively using scanning densitometry. Based on standard curve, the detection limit of the proposed test was as low as 0.08+/-0.03 ng mL(-1) with an IC(50) value of 0.60+/-0.08 ng mL(-1) and a linear working range of 0.11-4.13 ng mL(-1). Results of testing precision, stability, and specificity demonstrated that the assay provided a reliable performance. This immunostrip was applied to analysis of spiked fruit juices in range of 0.05-5 mg L(-1). Matrix interferences were avoided by simple dilution of samples. Both visual and instrumental evaluations indicated a good agreement with results obtained by ELISA. Recoveries from juices were from 81.9 to 123.6% and relative standard deviations ranged from 9.9 to 19.3%. The developed strip offers potential as a useful rapid and simple method for screening of thiabendazole in fruit juices at levels far below the maximum residue limits.

Immunochromatographic colloidal carbon-based assay for detection of methiocarb in surface water.

A simple and rapid immunochromatographic assay for a sensitive and inexpensive monitoring of methiocarb in surface water was developed using a binding inhibition format on a membrane strip. In the assay, detection reagent consisted of anti-methiocarb antibody and colloidal carbon-labelled secondary antibody. Methiocarb-ovalbumin conjugate was immobilized in a test line of the strip as a capture reagent. Colour intensity of the test line in methiocarb-positive assay was visually distinguishable from that of negative sample within 10min. The optimized semi-quantitative method provided a visual detection limit of 0.5ngmL(-1). Cross-reactions with other carbamate pesticides were not found (<1%). Only a negligible matrix effect of surface water was recognized. In parallel analyses of spiked water samples, the assay results were in a good agreement with those of ELISA. The stability test indicated the strips could be used at least 2 months without change in performance. All characteristics of the visually evaluated assay mentioned above were verified by instrumental quantification of colour intensity in test lines. The developed immunochromatographic assay offers potential as a useful on-site screening tool for environmental analysis.

Diversity of O Antigens within the Genus Cronobacter: from Disorder to Order

ABSTRACT Cronobacter species are Gram-negative opportunistic pathogens that can cause serious infections in neonates. The lipopolysaccharides (LPSs) that form part of the outer membrane of such bacteria are possibly related to the virulence of particular bacterial strains. However, currently there is no clear overview of O-antigen diversity within the various Cronobacter strains and links with virulence. In this study, we tested a total of 82 strains, covering each of the Cronobacter species. The nucleotide variability of the O-antigen gene cluster was determined by restriction fragment length polymorphism (RFLP) analysis. As a result, the 82 strains were distributed into 11 previously published serotypes and 6 new serotypes, each defined by its characteristic restriction profile. These new serotypes were confirmed using genomic analysis of strains available in public databases: GenBank and PubMLST Cronobacter. Laboratory strains were then tested using the current serotype-specific PCR probes. The results show that the current PCR probes did not always correspond to genomic O-antigen gene cluster variation. In addition, we analyzed the LPS phenotype of the reference strains of all distinguishable serotypes. The identified serotypes were compared with data from the literature and the MLST database (www.pubmlst.org/cronobacter/). Based on the findings, we systematically classified a total of 24 serotypes for the Cronobacter genus. Moreover, we evaluated the clinical history of these strains and show that Cronobacter sakazakii O2, O1, and O4, C. turicensis O1, and C. malonaticus O2 serotypes are particularly predominant in clinical cases.

The potential of matrix-assisted laser desorption/ionization time-of-flight mass spectrometry for the identification of biogroups of Cronobacter sakazakii

RATIONALE The bacterial genus Cronobacter was established quite recently, in 2008. Therefore, its systematic classification is still in progress as well as the risk assessment of Cronobacter strains. The possibility of rapid identification within the biogroup level has an essential epidemiological significance. We examined the potential of mass spectrometry to accomplish this task on species Cronobacter sakazakii comprising eight different biogroups. METHODS Members of all Cronobacter sakazakii biogroups were characterized by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) using intact cells. Analyses were performed on a Biflex IV MALDI-TOF mass spectrometer in the range of 2000 to 20 000 Da in linear mode with an accelerated voltage of 19 kV. RESULTS Optimal conditions for a proper identification of biogroups, such as suitable cultivation media or growth time of bacteria, were investigated. The biomarker patterns characterizing each of the Cronobacter sakazakii biogroups were obtained. The established identification protocol was applied to ten previously non-identified strains and their biogroups were successfully determined. CONCLUSIONS The presented work is the first report of successful and rapid bacterial biogroup taxonomy classification using MALDI-TOF-MS that could substitute demanding biochemical testing.

Novel Method for Reliable Identification of Siccibacter and Franconibacter Strains: from "Pseudo-Cronobacter" to New Enterobacteriaceae Genera.

ABSTRACT In the last decade, strains of the genera Franconibacter and Siccibacter have been misclassified as first Enterobacter and later Cronobacter. Because Cronobacter is a serious foodborne pathogen that affects premature neonates and elderly individuals, such misidentification may not only falsify epidemiological statistics but also lead to tests of powdered infant formula or other foods giving false results. Currently, the main ways of identifying Franconibacter and Siccibacter strains are by biochemical testing or by sequencing of the fusA gene as part of Cronobacter multilocus sequence typing (MLST), but in relation to these strains the former is generally highly difficult and unreliable while the latter remains expensive. To address this, we developed a fast, simple, and most importantly, reliable method for Franconibacter and Siccibacter identification based on intact-cell matrix-assisted laser desorption ionization–time of flight mass spectrometry (MALDI-TOF MS). Our method integrates the following steps: data preprocessing using mMass software; principal-component analysis (PCA) for the selection of mass spectrum fingerprints of Franconibacter and Siccibacter strains; optimization of the Biotyper database settings for the creation of main spectrum projections (MSPs). This methodology enabled us to create an in-house MALDI MS database that extends the current MALDI Biotyper database by including Franconibacter and Siccibacter strains. Finally, we verified our approach using seven previously unclassified strains, all of which were correctly identified, thereby validating our method. IMPORTANCE We show that the majority of methods currently used for the identification of Franconibacter and Siccibacter bacteria are not able to properly distinguish these strains from those of Cronobacter. While sequencing of the fusA gene as part of Cronobacter MLST remains the most reliable such method, it is highly expensive and time-consuming. Here, we demonstrate a cost-effective and reliable alternative that correctly distinguishes between Franconibacter, Siccibacter, and Cronobacter bacteria and identifies Franconibacter and Siccibacter at the species level. Using intact-cell MALDI-TOF MS, we extend the current MALDI Biotyper database with 11 Franconibacter and Siccibacter MSPs. In addition, the use of our approach is likely to lead to a more reliable identification scheme for Franconibacter and Siccibacter strains and, consequently, a more trustworthy epidemiological picture of their involvement in disease.

Lateral flow immunoassay and enzyme linked immunosorbent assay as effective immunomethods for the detection of synthetic cannabinoid JWH-200 based on the newly synthesized hapten

Graphical abstract