The European Union has banned the use of antibiotic growth promoters in animal production, which has led to increased use of probiotic microorganisms. These feed additives result in higher costs for farmers, which is why the demand for a quality control system to quantify probiotics in feeds has increased in recent years. Imaging high-performance thin-layer chromatography (HPTLC) was proven to be a robust method for determining the probiotic Bacillus subtilis DSM 29784 strain based on the production of selective bacterial metabolites and thus characteristic metabolite pattern. However, to quantify the specific probiotic strain in the feed, identification of a strain-specific metabolite not produced by genetically very similar bacteria is necessary. Compared to five bacteria with high genetic similarity, a strain-specific metabolite was formed in the probiotic bacteria by a two-step cultivation procedure. Among others, antimicrobial properties were found for this metabolite, which indicated probiotic activity. The hyphenation of normal-phase HPTLC with reversed-phase high-performance liquid chromatography diode array detection and high-resolution mass spectrometry allowed the preliminary assignment of this strain-specific metabolite to the molecular formula C35H44N6O2 (580.3527 Da). This metabolite, produced each time via an upstream cultivation process to generate the standard levels, was used for the quantification of probiotic active cells in the feed. Data on selectivity, linearity, detection limit, recovery, and precision have shown the good performance of the method.
Keywords: Bacillus subtilis DSM 29784; Bacterial profiling and differentiation; Pattern recognition; Probiotic feed additive; Validation.
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