Deciphering probiotic potential: a comprehensive guide to probiogenomic analyses

In recent years, the study of probiotics has advanced significantly, driven by growing interest in their potential health benefits and applications in the food and pharmaceutical industries. Probiotics are claimed to enhance gut health, modulate immune responses, improve digestion, synthesize beneficial compounds for the host, and even impact mental health through the gut-brain axis. However, traditional in vitro methods for identifying probiotics have limitations, such as low reproducibility in phenotypic screening, limited capacity to discover new strains, restricted evaluation of safety, and inefficiencies in fully understanding the biological properties responsible for health-promoting effects. Advancements in genomic analysis technology have provided a cost-effective approach to further explore probiotic strains and enhance understanding of the molecular mechanisms driving their beneficial effects in hosts. Here, we describe a comprehensive workflow for probiogenomic analysis aimed at establishing a gold-standard pipeline for screening probiotic potential based on genome sequencing. This pipeline encompasses steps from acquiring genomes to screening for safety-related features, genomic plasticity, and probiotic markers through whole-genome sequencing. In addition, this study outlines the respective methodological approaches and provides the most comprehensive database documented to date, comprising 243 genes potentially associated with probiotic function. Probiotics are very small organisms that are good for our health. They help with digestion, protect our immune system, and may even improve mental health. Finding and studying these beneficial microorganisms used to take a long time. Today, with DNA studies, scientists can find these microbes faster and more easily. This review explains how new DNA techniques help scientists discover better probiotics quickly.