| Popis: |
T-2 toxin is one of the most common and toxic trichothecene mycotoxins – secondary metabolites of molds that develop on cereals and some other crops. This article discusses the development stage of a test system for the determination of T-2 toxin based on enzyme-linked immunosorbent assay (ELISA), which uses an enzyme label – a conjugate of anti-rabbit goat antibodies with peroxidase. An important step in the creation of any ELISA-based test system is the preliminary titration of reaction components. The aim of the work was to determine the optimal concentration of the conjugate of antispecies antibodies in an indirectly competitive enzyme-linked immunosorbent enzyme immunoassay with the indication of T-2 toxin. A number of dilutions of the antivirus conjugate were examined: 1 : 1000; 1 : 2000; 1 : 3000; 1 : 4000; 1 : 5000; 1 : 7500; 1 : 10000; 1 : 12 500; 1 : 15,000; 1 : 17,500; 1 : 20,000; 1 : 30 000. In the ELISA staging protocol, calibration solutions of T-2 toxin at concentrations of 0.0 were used; 2.5; 5, 10, 20, 40, 80, 160 ng/ml and specific polyclonal rabbit antibodies to the T-2-BSA conjugate. Based on the average optical density values, calibration plots were constructed using the percentage of signal absorption from the zero standard. When evaluating the results of the study, the criterion for choosing the dilution of the conjugate of anti-species antibodies was considered the greatest, at which the best linearity of the grading plot is achieved and the level of its non-specific reaction with the zero standard would be the lowest. It was established that the optimal variants of dilutions of the conjugate of anti-species antibodies under the same experimental conditions tested were 1: 4000, 1 : 5000 and 1 : 12 500. Dose-dependent signal absorption was observed in all concentrations of anti-species antibodies. Dilutions of the conjugate of anti-species antibodies 1 : 1000–1 : 3000 and 1 : 17 500–1 : 30 000 were not taken into account, since the optical density of most wells was higher than the optimal boundaries in the first case (> 3.9) and lower in the second (< 0.4). Based on the foregoing, optimal dilution of the conjugate of anti-species antibodies was selected 1 : 12 500. |
