Introduction: Currently, the only probiotic yeast with clinically proven health-promoting effects for several gastrointestinal disorders in adults and children is Saccharomyces cerevisiae var. boulardii (Sb). The probiotic properties of this yeast have been proven to be strain-dependent. Of note, probiotics were taken in the past as a common panacea for lifestyle diseases. Therefore, probiotic preparations are accessible worldwide as preventive agents. Dietary supplements, including thosen that are Sb-fortified, are regulated as food is in the market. The current state of regulations and the growing supplement availability create an environment conducive to food adulteration, necessitating rapid testing for product verification.

Method: Due to the significant genetic similarity of Sb to Saccharomyces cerevisiae, qPCR-HRM analysis was was used for testing, which has a very high sensitivity for polymorphism detection and enables the simultaneous identification of the microorganism in the presence of a reference sample. The effectiveness of interspecies and intragenus primer pairs designed to amplify heterogeneous regions was examined.

Results: qPCR-HRM analysis using interspecies 18SrRNA and ITS sequences optimized in culture-dependent analysis identified Sb at the species level, while intraspecies HO and RPB2 sequences were identified at the variety level in single-yeast dietary supplements. The region amplification test of HXT9 and MAL11 verified additionally the physiological properties of the strains used in probiotic supplements. The low variability in sequences amplified by interspecies primer pairs in qPCR-HRM analysis prevented the differentiation of Sb in yeast mixtures. In contrast, identifying Sb with designed intragenus-specific primer pairs succeeded in establishing multi-yeast suspensions. The RPB2 sequence showed the highest intraspecies differentiation power. However, qPCR-HRM analysis identified Sb only with the prevalence of the variety quantity in the microbial matrix.

Conclusions:

1. The predominant presence of probiotics in a matrix is essential for qPCR-HRM identification.
2. There is limited differentiation capacity for qPCR-HRM using interspecies primer pairs for rDNA regions in a multi-yeast matrix.
3. There is a high differentiation power of qPCR-HRM using the RPB2 selected sequence in a multi-yeast matrix.