Some beneficial microorganisms in the intestine have the potential to degrade uric acid, offering a novel strategy for the prevention of hyperuricemia. In this study, the safety and probiotic potentials of Limosilactobacillus fermentum BGI-AF16 were evaluated by whole genome sequence analysis and in vitro experiments. Based on the gene analysis of antibiotic resistance and virulence factors, L. fermentum BGI-AF16 has been shown to be safe. We identified probiotic-related genes by genome annotation tools and conducted in vitro experiments to evaluate the ability of L. fermentum BGI-AF16 to inhibit pathogenic bacteria, tolerate a simulated gastrointestinal environment, and degrade uric acid. The results from in vitro experiments showed that L. fermentum BGI-AF16 had inhibitory effects on four clinically relevant pathogens and was highly tolerant to the gastrointestinal environment. In addition, L. fermentum BGI-AF16 was able to rapidly degrade uric acid within the first hour, and the strain could degrade 56.36 ± 2.32 % of uric acid by the third hour. The genome of the strain contains genes encoding flavin adenine dinucleotide (FAD)-dependent urate hydroxylase (EC.1.14.13.113), an enzyme that directly metabolizes uric acid. And the strain has a complete uric acid metabolic pathway. These results suggest that L. fermentum BGI-AF16 is a probiotic candidate with significant potential for reducing uric acid level.